CN104866063A - Method for processing information and electronic equipment - Google Patents

Abstract

The application discloses a method for processing information and electronic equipment, which are used for solving the technical problem that the power consumption of win-and-phone framework compound electronic equipment realized based on a windows system is large in the prior art. The method comprises the steps as follows: a wakeup control unit in the electronic equipment judges whether a first wakeup request from an operation system of the electronic equipment and a second wakeup request from an embedded controller EC of the electronic equipment are received when the current state of the electronic equipment is a standby state to obtain a first judging result; the wakeup control unit generates and executes a first wakeup instruction for controlling the current state to be the wakeup state when the first judging result is yes so as to control the current state to be switched to the wakeup state from the standby state.

Description

A kind of method of information processing and electronic equipment

Technical field

The application relates to electronic technology field, the method for particularly a kind of information processing and electronic equipment.

Background technology

Along with the fast development of electronic technology, many electronic equipments no longer have single function.As mobile phone not only can be made a phone call, be sent short messages, and can also surf the Net, listen song, see video etc.; And for example televisor not only can receive the screen signal from TV station, can also get online without being tethered to a cable.Electronic equipment like this is very many, makes the life of people more rich and varied.

The variation of electronic functionalities, be due to electronic equipment developer through research and development test by originally multiple there is the electronic equipment of simple function software and/or hardware be fused in an electronic equipment, as the computer with telephony feature that current many electronic equipment developers are are researching and developing, in original computer, add the function of mobile phone exactly.Because most of user habit uses the computer product of windows system, for catering to the user demand of user, some developers develop the computer with telephony feature based on windows system, i.e. the composite electronic equipment of " win+phone " framework.

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

At present, the research of the composite electronic equipment of " win+phone " framework is perfect not enough, its power consumption is equivalent to the power consumption of a computer and a mobile phone, that is, there is the technical matters that the composite electronic electricity consumption of equipment amount of " win+phone " framework realized based on windows system is large in prior art.

Summary of the invention

The embodiment of the present application is by providing a kind of method and electronic equipment of information processing, in order to solve technical matters large based on the composite electronic electricity consumption of equipment amount of " win+phone " framework of windows system realization in prior art, achieve and participate in controlling waking up of electronic equipment by EC when electronic equipment is in holding state, the frequent active avoiding or alleviate operating system wakes up, increase effective stand-by time of electronic equipment, save the technique effect of electronic equipment power consumption.

On the one hand, the embodiment of the present application provides a kind of method of information processing, and be applied in an electronic equipment, described method comprises:

When the current state of described electronic equipment is holding state, wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up in described electronic equipment, obtain the first judged result;

When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

When described operating system detects that the signal receiving module of described electronic equipment receives wake-up signal, described operating system generates described first wake request, and send described first wake request to described in wake control module up; And

When described embedded controller EC detects that described signal receiving module receives described wake-up signal, described embedded controller EC generates described second wake request, and send described second wake request to described in wake control module up.

Optionally, described signal receiving module is specially: networking signal receiving module or hardware switch module.

Optionally, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

The current operation mode detecting described electronic equipment is first mode or the second pattern, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is less than the first default electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

Optionally, be first mode or the second pattern at the current operation mode of the described electronic equipment of described detection, after obtaining the first testing result, described method also comprises:

When described first testing result shows that described current operation mode is described second pattern, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

Optionally, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, after obtaining the first judged result, described method also comprises:

When described first judged result is no, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to the second default electricity, and before obtaining the 3rd testing result, described method also comprises:

Whether the current operation mode detecting described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, perform step: whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

On the other hand, the embodiment of the present application additionally provides a kind of electronic equipment of information processing, comprising: hardware system, comprise wake up control module and with the described embedded controller EC waking control module up and be connected;

And based on the operating system that described hardware system runs;

Wherein, when the current state of described electronic equipment is holding state, the described control module that wakes up judges whether to have received from the first wake request of described operating system and the second wake request from described embedded controller EC, obtains the first judged result;

When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, described hardware system also comprises the signal receiving module be connected with described embedded controller EC, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described operating system is used for when detecting that the signal receiving module of described electronic equipment receives wake-up signal, generate described first wake request, and send described first wake request to described in wake control module up; And

Described embedded controller EC be used for when detecting that described signal receiving module receives described wake-up signal, generate described second wake request, and send described second wake request to described in wake control module up.

Optionally, described signal receiving module is specially: networking signal receiving module or hardware switch module.

Optionally, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described embedded controller EC is first mode or the second pattern for detecting the current operation mode of described electronic equipment, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether described embedded controller EC is less than first for the current electric quantity detecting the battery of described electronic equipment is preset electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, the described control module that wakes up, for judging whether have received second wake request of the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment, obtains the first judged result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

Optionally, when described first testing result shows that described current operation mode is described second pattern, the described control module that wakes up, for judging whether have received second wake request of the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment, obtains the first judged result.

Optionally, described electronic equipment also comprises the battery be connected with described embedded controller EC, when described first judged result is no, whether described embedded controller EC is more than or equal to second for the current electric quantity detecting described battery is preset electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module for generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to the second default electricity, before obtaining the 3rd testing result, described embedded controller EC, for detecting whether the current operation mode of described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, whether described embedded controller EC is more than or equal to second for the current electric quantity detecting the battery of described electronic equipment is preset electricity, obtains the 3rd testing result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

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

(1) due in the embodiment of the present application, when the current state of electronic equipment is holding state, the second wake request that control module can judge whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up in electronic equipment, obtain the first judged result, when described first judged result is for being, the described control module that wakes up generates and performs and is in first of wake-up states wakes instruction up for controlling described current state, described wake-up states is adjusted to from described holding state to control described current state, that is, wake control module up when receiving the wake request from operating system, also to detect and know that EC also sends wake request and just wakes electronic equipment up, solve the technical matters that the composite electronic electricity consumption of equipment amount of " win+phone " framework based on the realization of windows system existed in prior art is large, achieve and participate in controlling waking up of electronic equipment by EC when electronic equipment is in holding state, the frequent active avoiding or alleviate operating system wakes up, increase effective stand-by time of electronic equipment, save the technique effect of electronic equipment power consumption.

(2) due in the embodiment of the present application, when operating system and embedded controller EC all can receive wake-up signal at the signal receiving module detecting that signal receiving module receives electronic equipment, wake request is sent to waking control module up, wherein, signal receiving module is specially network signal receiver module and hardware switch module, that is, electronic equipment have event need process time just can wake up, when not having event, electronic equipment is in degree of depth holding state, ensure that effective stand-by time of electronic equipment, and can not when standby drain process event.

(3) due in the embodiment of the present application, electronic equipment can detect self current operation mode, and when WIFI module is in the mobile broadband connection mode of opening, the current electric quantity of the battery of embedded controller EC meeting detected electrons equipment, and when current electric quantity is less than the first default electricity, as for battery Full Charge Capacity 30% time, wake control module up and just consider operating system wake request and EC wake request, or when WIFI module is in the mobile broadband connection mode of closed condition, wake control module up and just consider operating system wake request and EC wake request, wake up process is carried out to electronic equipment, and then can for the different working modes of electronic equipment, different electricity carries out carrying out wake operation to electronic equipment targetedly, achieve electronic equipment standby under the mode of operation that power consumption is larger time can be effectively standby, save the technique effect of electricity.

(4) due in the embodiment of the present application, when waking control module up and not only not receiving the wake request of operating system but also receive the wake request of embedded controller EC, embedded controller EC can judge whether the current electric quantity of battery is more than or equal to second and presets electricity, and when battery current electric quantity is more than or equal to the second default electricity, wake control module up to generate and perform second and wake instruction up and wake electronic equipment up, electronic equipment current state is made to be wake-up states, achieve and wake the charge condition process wake request of control module according to electronic equipment up, wake electronic equipment up targetedly, ensure that the technique effect of the work efficiency of electronic equipment.

Accompanying drawing explanation

The method flow diagram of a kind of information processing that Fig. 1 provides for the embodiment of the present application;

SoC and the EC control that Fig. 2 provides for the embodiment of the present application wakes electronic equipment schematic diagram up;

The EC control that Fig. 3 provides for the embodiment of the present application wakes electronic equipment schematic diagram up;

The structural drawing of a kind of electronic equipment that Fig. 4 provides for the embodiment of the present application.

Embodiment

The embodiment of the present application is by providing a kind of method and electronic equipment of information processing, solve technical matters large based on the composite electronic electricity consumption of equipment amount of " win+phone " framework of windows system realization in prior art, achieve and participate in controlling waking up of electronic equipment by EC when electronic equipment is in holding state, the frequent active avoiding or alleviate operating system wakes up, increase effective stand-by time of electronic equipment, save the technique effect of electronic equipment power consumption.

Technical scheme in the embodiment of the present application is for solving the problem, and general thought is as follows:

A kind of method of information processing is provided, be applied in an electronic equipment, described method comprises: when the current state of described electronic equipment is holding state, wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up in described electronic equipment, obtain the first judged result; When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

Visible, due in the embodiment of the present application, when the current state of electronic equipment is holding state, the second wake request that control module can judge whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up in electronic equipment, obtain the first judged result, when described first judged result is for being, the described control module that wakes up generates and performs and is in first of wake-up states wakes instruction up for controlling described current state, described wake-up states is adjusted to from described holding state to control described current state, that is, wake control module up when receiving the wake request from operating system, also to detect and know that EC also sends wake request and just wakes electronic equipment up, solve the technical matters that the composite electronic electricity consumption of equipment amount of " win+phone " framework based on the realization of windows system existed in prior art is large, achieve and participate in controlling waking up of electronic equipment by EC when electronic equipment is in holding state, the frequent active avoiding or alleviate operating system wakes up, increase effective stand-by time of electronic equipment, save the technique effect of electronic equipment power consumption.

In order to better understand technique scheme, below in conjunction with Figure of description and concrete embodiment, technique scheme 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.

Please refer to Fig. 1, the method for the information processing that the embodiment of the present application provides is applied in an electronic equipment, and as having the PC of cell-phone function, having the panel computer of cell-phone function, described method specifically comprises step:

S101: when the current state of described electronic equipment is holding state, wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up in described electronic equipment, obtain the first judged result;

S102: when described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

In specific implementation process, just in order to make electronic equipment have event need process time can wake up, when not having event, electronic equipment is in degree of depth holding state, ensure effective stand-by time of electronic equipment, and can not when standby drain process event, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

When described operating system detects that the signal receiving module of described electronic equipment receives wake-up signal, described operating system generates described first wake request, and send described first wake request to described in wake control module up; And

When described embedded controller EC detects that described signal receiving module receives described wake-up signal, described embedded controller EC generates described second wake request, and send described second wake request to described in wake control module up.

Concrete, wherein, described signal receiving module is specially: networking signal receiving module or hardware switch module.

In specific implementation process, in order to the different working modes for electronic equipment can be had, different electricity carries out waking up electronic apparatus system targetedly, achieve electronic equipment standby under the mode of operation that power consumption is larger time can be effectively standby, save the technique effect of electricity.

Concrete, in order to make electronic equipment under the mode of operation that the power consumption such as WIFI module unlatching are large, can wake up electronic equipment targetedly according to the actual electricity of battery, namely when electric quantity for electronic equipment is lower, control electronic equipment to wake up with passive wake-up mode, the situation avoiding or alleviate electronic equipment operating system frequently initiatively to wake up occurs, thus save the power consumption of electronic equipment, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

The current operation mode detecting described electronic equipment is first mode or the second pattern, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is less than the first default electricity, be specifically as follows 30% of battery Full Charge Capacity, obtain the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

Concrete, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

In addition, in order to make electronic equipment when working in common mobile broadband connection mode, namely when the WIFI module of electronic equipment is not opened, the standby shape body of the degree of depth directly allowing system enter non-self to wake up, thus effective stand-by time of electronic equipment can be increased, be first mode or the second pattern at the current operation mode of the described electronic equipment of described detection, after obtaining the first testing result, described method also comprises:

When described first testing result shows that described current operation mode is described second pattern, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

In specific implementation process, in order to make electronic equipment when electricity is sufficient, still can according to the active wake request of system, wake operation is carried out to electronic equipment, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, after obtaining the first judged result, described method also comprises:

When described first judged result is no, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, is specifically as follows 30% of battery Full Charge Capacity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

Further, in order to make electronic equipment when WIFI module is opened and electricity is sufficient, still can according to the active wake request of system, wake operation is carried out to electronic equipment, whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to the second default electricity, before obtaining the 3rd testing result, described method also comprises:

Whether the current operation mode detecting described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, perform step: whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result.

Concrete, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

Below by following embodiment, such scheme is described in detail.

Embodiment one

In the embodiment of the present application, the electronic equipment of phone function is realized for the windows system of Based PC version, the product form of described electronic equipment can for be integrated with a pad and mobile phone in an electronic equipment, the electronic equipment of this type contains the hardware module of pad and phone equally on hardware, claims the electronic equipment of this type to be pad+phone in the embodiment of the present application.The system level chip SoC(System on Chip of pad+phone) formation can be system level chip steering logic module, microprocessor/microcontroller CPU core module, digital signal processor DSP module, the memory module embedded, the interface module of communication is carried out with outside, analog front-end module containing ADC/DAC, power supply provides and power managed module, RF front-end module is also had for a wireless SoC, user defines logic (being realized by FPGA or ASIC), and microelectron-mechanical module, the more important thing is the user software etc. that a SoC chip is embedded with basic software modules and maybe can be loaded into.In a particular application, the operating system of electronic equipment, as windows operating system, is stored in SoC.

In actual applications, if the electronic equipment of windows system does not use for a long time under open state, namely do not carry out associative operation to electronic equipment, the power supply that the embedded controller EC of electronic equipment can control power management module exports, and controls electronic equipment and enter standby mode.When electronic equipment is in holding state, and when electronic equipment is windows system, wake two kinds of modes by automatically waking up up wake electronic equipment up with passive.

Concrete, here active wakes mainly windows system up and initiatively wakes up, when electronic equipment is standby, windows system can be waken electronic equipment up and carries out Network Synchronization by every 30s, after windows operating system sends wake request, the power supply of the SoC of electronic equipment provides the power module controlling electronic equipment with power managed module to be that electronic equipment carries out normal power supply, makes electronic equipment be in wake-up states, i.e. Activity state.Passive waking up refers to when electronic equipment is standby, the information receiving module of electronic equipment, meeting receipt message event, and after SoC receives message event, can control power module is electronic equipment normal power supply, makes electronic equipment be in wake-up states; In addition, make electronic equipment be in wake-up states when user starts electronic equipment by the power key (Power Button) controlling electronic equipment, also belong to passive wake-up mode.

In the embodiment of the present application, in order to when electronic equipment is in holding state, participate in controlling waking up of electronic equipment by EC, avoid or alleviate operating system automatically waking electronic equipment up frequently, thus reach the effective stand-by time increasing electronic equipment, the object of saving energy, please refer to Fig. 2, be provided with in the electronic device and wake control module up, and waking control module up only has when receiving wake request that operating system and embedded controller EC202 in SoC201 send at the same time, just wakes electronic equipment up and makes electronic equipment be in Activity state.

Concrete, still please refer to Fig. 2, wake up in control module and comprise hardware logic and door 203.When operating system sends wake request, the SLP_S0ix_B signal of SoC sets high, be logical one, when embedded controller EC sends wake request, the EC_GPIO signal of EC sets high, be logical one, now the signal that above-mentioned two is logical one carries out " with operation " by hardware logic and door 203, generate SLP_B signal, control the power management IC (PMIC) 204 waken up in control module, make its control and management battery module to electronic equipment normal power supply, thus reach the object waking electronic equipment up; Relative, when sending wake request in operating system, the SLP_S0ix_B signal of SoC sets high, and is logical one, now, embedded controller EC does not send wake request, the EC_GPIO signal of EC sets low, and is logical zero, and now SLP_S0ix_B signal and EC_GPIO signal carry out " with operation " by hardware logic and door 203, can not generate SLP_B signal, or the SLP_B signal generated do not possess the function that control power management IC (PMIC) 204 carries out normal power supply.

Embodiment two

In specific implementation process, for the pad+phone electronic equipment of holding state, the active avoiding or alleviate operating system wakes up, mainly wakes electronic equipment up in the passive mode waken up.In the present embodiment, mainly the passive flow process of waking up of electronic equipment is introduced.Electronic equipment is when receiving event signal, and operating system and embedded controller EC just send wake request.

Please refer to Fig. 3, the signal receiving module of electronic equipment mainly comprises network signal receiver module and hardware switch signal receiving module, and wherein, network signal receiver module comprises reception of wireless signals module and wire signal receiver module.Current electronic equipment is mainly used in radio communication, and network signal receiver module, based on reception of wireless signals module, comprises WIFI signal receiver module 301, BT signal receiving module 302,3G/LTE signal receiving module 303 etc.For hardware switch signal receiving module, be specifically as follows the power switch key (Power Button) 304 of electronic equipment.

In figure 3, the embedded controller EC305 of electronic equipment and WIFI signal receiver module 301, BT signal receiving module 302,3G/LTE signal receiving module 303, and the power switch key of electronic equipment (Power Button) 304 is connected, when wherein arbitrary module sends wake-up signal, EC all can generate wake request, and be sent to power management IC (PMIC) 306, to make PMIC control and management battery module to electronic equipment normal power supply, thus make electronic equipment be in wake-up states.

In the present embodiment, during owing to receiving the wake-up signal of arbitrary signal receiving module in from above-mentioned signal receiving module at embedded controller EC, the SoC of electronic equipment also can receive described wake-up signal, and send wake request, if the degree of depth holding state that electronic apparatus system is in non-self and wakes up just will be ensured, do not need the wake request considering that SoC sends.So, in figure 3, only embody wake-up mode when EC receives wake-up signal, PMIC being sent to wake request.

Embodiment three

When electronic device works is in the mobile broadband connection mode that WIFI module is opened, the current electric quantity of embedded controller EC meeting detected electrons device battery, if current electric quantity is less than 30% of battery Full Charge Capacity, please refer to Fig. 2, the EC_GPIO signal exporting to hardware logic and door 203 can set low by EC202, and with the control mode in embodiment two, control wakes electronic equipment up, that is, please refer to Fig. 3, whether the system wake-up of electronic equipment is controlled by the EC of electronic equipment, if the signal receiving module of EC receives WIFI signal receiver module 301, BT signal receiving module 302, when 3G/LTE signal receiving module 303 and power switch key (Power Button) 304, EC sends wake request, waken system, otherwise, electronic equipment is in degree of depth holding state, only support mail, note, phones etc. wake up.

When the mobile broadband connection mode that electronic device works is opened in WIFI module, and EC is when detecting that the current electric quantity of battery is more than or equal to 30% of battery Full Charge Capacity, illustrate that the current electric quantity of electronic equipment is more sufficient, please refer to Fig. 2, the EC_GPIO signal exporting to hardware logic and door 203 can set high by EC202, the state of electronic equipment is controlled by SoC, system is in the state that OS controls, regularly automatically wake more new data up, that is, the automatic wake request that electronic equipment can send according to the every 30s of operating system is frequently waken up electronic equipment, thus carry out synchronously to network, simultaneously, also such as mail can be received at the signal receiving module of electronic equipment, note, the network event information such as phone, or when receiving power switch control signal, electronic equipment is waken up.

When electronic device works is in the mobile broadband connection mode that WIFI module is closed, please refer to Fig. 2, the EC_GPIO signal exporting to hardware logic and door 203 can set low by EC202, and with the control mode in embodiment two, control wakes electronic equipment up, that is, please refer to Fig. 3, whether the system wake-up of electronic equipment is controlled by the EC of electronic equipment, if the signal receiving module of EC receives WIFI signal receiver module 301, BT signal receiving module 302, when 3G/LTE signal receiving module 303 and power switch key (Power Button) 304, EC sends wake request, waken system, otherwise, electronic equipment is in degree of depth holding state, only support mail, note, phones etc. wake up.

Due to SOC (system on a chip) SOC, there is radio frequency front end, and SOC and RF front end is the main power consumption module of comprehensive electronic equipment when system standby of " win+phone " framework.Wherein, the unit interval power consumption of SOC is the unit interval power consumption of 55mw, RF front end is 15mw.For the Full Charge Capacity of electric device battery for 12wh:

Windows system is generally applied to computer, this system has a kind of characteristic to be exactly, when electronic equipment is standby, the every 30s of system initiatively can wake electronic equipment up, has 0.5s and is in activation (activity) state, in active state after electronic apparatus system wakes up, the unit interval power consumption of electronic equipment is 2000mw, so can calculate, before not taking the application's scheme, namely the system of electronic equipment without the unit interval power consumption optimized is:

[（55mw+15mw）×30s+2000mw×0.5s]/（30s+0.5s）≈102mw

The system that can calculate electronic equipment is when without optimization, and the service time of battery is:

12wh/102mw≈117h

When electronic device works is in the mobile broadband connection mode that WIFI module is opened, because electronic equipment just takes the application's scheme to be optimized process when battery current electric quantity is less than 30% of battery Full Charge Capacity, that is, battery electric quantity when being more than or equal to 70% of Full Charge Capacity, the unit work consumptiom of electronic equipment is system unit interval power consumption in usual cases, when battery electric quantity is less than 30% of Full Charge Capacity, the unit work consumptiom of electronic equipment is the power consumption of SoC and RF front end, so under this mode of operation, the service time of battery is:

（12wh×70%）/102mw+(12wh×30%)/(55mw+15mw)≈134h

When electronic device works is in the mobile broadband connection mode that WIFI module is closed, electronic equipment is in degree of depth holding state, and main power consumption module is SOC and RF front end, and so the service time of battery is:

12wh/（55mw+15mw）≈171h

Visible, in the present embodiment, when electronic equipment is in holding state, electronic equipment is waken up by embedded controller EC participation Control management system targetedly according to the current electric quantity of the current operation mode of self and battery, add effective stand-by time of electronic equipment, save power consumption, extend the service time of battery.

Based on same inventive concept, the embodiment of the present application additionally provides a kind of electronic equipment of information processing, please refer to Fig. 4, comprising: hardware system, comprise wake up control module 401 and with the described embedded controller EC402 waking control module 401 up and be connected;

And based on the operating system 403 that described hardware system runs;

Wherein, when the current state of described electronic equipment is holding state, the described control module 401 that wakes up judges whether to have received from the first wake request of described operating system 403 and the second wake request from described embedded controller EC402, obtains the first judged result;

When described first judged result is for being, described in wake control module 401 up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

In specific implementation process, just in order to make electronic equipment have event need process time can wake up, when not having event, electronic equipment is in degree of depth holding state, ensure effective stand-by time of electronic equipment, and can not when standby drain process event, described hardware system also comprises the signal receiving module 404 be connected with described embedded controller EC402, the second wake request that control module 401 judges whether have received the first wake request from the operating system 403 of described electronic equipment and the embedded controller EC402 from described electronic equipment is waken up described, before obtaining the first judged result, described operating system 403 is for when detecting that the signal receiving module 404 of described electronic equipment receives wake-up signal, generate described first wake request, and send described first wake request to described in wake control module up, and

Described embedded controller EC402 be used for when detecting that described signal receiving module 404 receives described wake-up signal, generate described second wake request, and send described second wake request to described in wake control module 401 up.

Concrete, wherein, described signal receiving module is specially: networking signal receiving module or hardware switch module.

In specific implementation process, in order to the different working modes for electronic equipment can be had, different electricity carries out waking up electronic apparatus system targetedly, achieve electronic equipment standby under the mode of operation that power consumption is larger time can be effectively standby, save the technique effect of electricity.

Concrete, in order to make electronic equipment under the mode of operation that the power consumption such as WIFI module unlatching are large, can wake up electronic equipment targetedly according to the actual electricity of battery, namely when electric quantity for electronic equipment is lower, control electronic equipment to wake up with passive wake-up mode, the situation avoiding or alleviate electronic equipment operating system frequently initiatively to wake up occurs, thus save the power consumption of electronic equipment, the second wake request that control module 401 judges whether have received the first wake request from the operating system 403 of described electronic equipment and the embedded controller EC402 from described electronic equipment is waken up described, before obtaining the first judged result, described embedded controller EC402 is first mode or the second pattern for detecting the current operation mode of described electronic equipment, obtain the first testing result,

When described first testing result shows that described current operation mode is described first mode, whether described embedded controller EC402 is less than first for the current electric quantity detecting the battery of described electronic equipment is preset electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, the described control module that wakes up, for judging whether have received second wake request of the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment, obtains the first judged result.

Concrete, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

In addition, in order to make electronic equipment when working in common mobile broadband connection mode, namely when the WIFI module of electronic equipment is not opened, the standby shape body of the degree of depth directly allowing system enter non-self to wake up, thus effective stand-by time of electronic equipment can be increased, when described first testing result shows that described current operation mode is described second pattern, the described control module 401 that wakes up is for judging whether have received second wake request of the first wake request from the operating system 403 of described electronic equipment and the embedded controller EC402 from described electronic equipment, obtain the first judged result.

In specific implementation process, in order to make electronic equipment when electricity is sufficient, still can according to the active wake request of system, wake operation is carried out to electronic equipment, described electronic equipment also comprises the battery 405 be connected with described embedded controller EC402, when described first judged result is no, whether described embedded controller EC402 is more than or equal to second for the current electric quantity detecting described battery 405 is preset electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module 401 for generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

Further, in order to make electronic equipment when WIFI module is opened and electricity is sufficient, still can according to the active wake request of system, wake operation is carried out to electronic equipment, whether the current electric quantity detecting the battery 404 of described electronic equipment at described embedded controller EC402 is more than or equal to second is preset electricity, before obtaining the 3rd testing result, described embedded controller EC402, for detecting whether the current operation mode of described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, whether described embedded controller EC402 is more than or equal to the second default electricity for the current electric quantity of the battery 405 detecting described electronic equipment, obtains the 3rd testing result.

Concrete, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

According to description above, above-mentioned electronic equipment is used for realizing above-mentioned information processing method, so the course of work of this electronic equipment is consistent with one or more embodiments of said method, has just repeated no longer one by one at this.

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

(1) due in the embodiment of the present application, when the current state of electronic equipment is holding state, the second wake request that control module can judge whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up in electronic equipment, obtain the first judged result, when described first judged result is for being, the described control module that wakes up generates and performs and is in first of wake-up states wakes instruction up for controlling described current state, described wake-up states is adjusted to from described holding state to control described current state, that is, wake control module up when receiving the wake request from operating system, also to detect and know that EC also sends wake request and just wakes electronic equipment up, solve the technical matters that the composite electronic electricity consumption of equipment amount of " win+phone " framework based on the realization of windows system existed in prior art is large, achieve and participate in controlling waking up of electronic equipment by EC when electronic equipment is in holding state, the frequent active avoiding or alleviate operating system wakes up, increase effective stand-by time of electronic equipment, save the technique effect of electronic equipment power consumption.

(2) due in the embodiment of the present application, when operating system and embedded controller EC all can receive wake-up signal at the signal receiving module detecting that signal receiving module receives electronic equipment, wake request is sent to waking control module up, wherein, signal receiving module is specially network signal receiver module and hardware switch module, that is, electronic equipment have event need process time just can wake up, when not having event, electronic equipment is in degree of depth holding state, ensure that effective stand-by time of electronic equipment, and can not when standby drain process event.

(3) due in the embodiment of the present application, electronic equipment can detect self current operation mode, and when WIFI module is in the mobile broadband connection mode of opening, the current electric quantity of the battery of embedded controller EC meeting detected electrons equipment, and when current electric quantity is less than the first default electricity, as for battery Full Charge Capacity 30% time, wake control module up and just consider operating system wake request and EC wake request, or when WIFI module is in the mobile broadband connection mode of closed condition, wake control module up and just consider operating system wake request and EC wake request, wake up process is carried out to electronic equipment, and then can for the different working modes of electronic equipment, different electricity carries out carrying out wake operation to electronic equipment targetedly, achieve electronic equipment standby under the mode of operation that power consumption is larger time can be effectively standby, save the technique effect of electricity.

(4) due in the embodiment of the present application, when waking control module up and not only not receiving the wake request of operating system but also receive the wake request of embedded controller EC, embedded controller EC can judge whether the current electric quantity of battery is more than or equal to second and presets electricity, and when battery current electric quantity is more than or equal to the second default electricity, wake control module up to generate and perform second and wake instruction up and wake electronic equipment up, electronic equipment current state is made to be wake-up states, achieve and wake the charge condition process wake request of control module according to electronic equipment up, wake electronic equipment up targetedly, ensure that the technique effect of the work efficiency of electronic equipment.

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, 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, when the computer program instructions corresponding with this information processing method in storage medium is read by an electronic equipment or be performed, comprise the steps:

When the current state of described electronic equipment is holding state, wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up in described electronic equipment, obtain the first judged result;

When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: wake described the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtaining before computer instruction corresponding to the first judged result is performed and be performed, comprising the steps: when being performed

When described operating system detects that the signal receiving module of described electronic equipment receives wake-up signal, described operating system generates described first wake request, and send described first wake request to described in wake control module up; And

When described embedded controller EC detects that described signal receiving module receives described wake-up signal, described embedded controller EC generates described second wake request, and send described second wake request to described in wake control module up.

Optionally, described signal receiving module is specially: networking signal receiving module or hardware switch module.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: wake described the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtaining before computer instruction corresponding to the first judged result is performed and be performed, comprising the steps: when being performed

The current operation mode detecting described electronic equipment is first mode or the second pattern, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is less than the first default electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: be first mode or the second pattern at the current operation mode of the described electronic equipment of described detection, obtaining after computer instruction corresponding to the first testing result is performed and be performed, comprising the steps: when being performed

When described first testing result shows that described current operation mode is described second pattern, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: wake described the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtaining after computer instruction corresponding to the first judged result is performed and be performed, comprising the steps: when being performed

When described first judged result is no, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

Optionally, other computer instruction is also stored in described storage medium, these computer instructions with step: whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to second is preset electricity, obtaining before computer instruction corresponding to the 3rd testing result is performed and be performed, comprising the steps: when being performed

Whether the current operation mode detecting described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, perform step: whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result.

Optionally, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

Although describe the preferred embodiments of the present invention, those skilled in the art once obtain the basic creative concept of cicada, then can make other change and amendment to these embodiments.So claims are intended to be interpreted as comprising preferred embodiment and falling into all changes and the amendment of the scope of the invention.

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 (18)

1. an information processing method, be applied in an electronic equipment, described method comprises:

When the current state of described electronic equipment is holding state, wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up in described electronic equipment, obtain the first judged result;

When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

2. the method for claim 1, it is characterized in that, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

When described operating system detects that the signal receiving module of described electronic equipment receives wake-up signal, described operating system generates described first wake request, and send described first wake request to described in wake control module up; And

When described embedded controller EC detects that described signal receiving module receives described wake-up signal, described embedded controller EC generates described second wake request, and send described second wake request to described in wake control module up.

3. method as claimed in claim 2, it is characterized in that, described signal receiving module is specially: networking signal receiving module or hardware switch module.

4. the method for claim 1, it is characterized in that, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described method also comprises:

The current operation mode detecting described electronic equipment is first mode or the second pattern, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is less than the first default electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

5. method as claimed in claim 4, it is characterized in that, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

6. the method as described in claim 4 or 5, is characterized in that, is first mode or the second pattern at the current operation mode of the described electronic equipment of described detection, and after obtaining the first testing result, described method also comprises:

When described first testing result shows that described current operation mode is described second pattern, perform step: wake the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment up, obtain the first judged result.

7. the method for claim 1, it is characterized in that, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, after obtaining the first judged result, described method also comprises:

When described first judged result is no, whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

8. method as claimed in claim 7, is characterized in that, whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to the second default electricity, and before obtaining the 3rd testing result, described method also comprises:

Whether the current operation mode detecting described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, perform step: whether the current electric quantity that described embedded controller EC detects the battery of described electronic equipment is more than or equal to the second default electricity, obtains the 3rd testing result.

9. method as claimed in claim 8, it is characterized in that, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.

10. an electronic equipment, comprising: hardware system, comprise wake up control module and with the described embedded controller EC waking control module up and be connected;

And based on the operating system that described hardware system runs;

Wherein, when the current state of described electronic equipment is holding state, the described control module that wakes up judges whether to have received from the first wake request of described operating system and the second wake request from described embedded controller EC, obtains the first judged result;

When described first judged result is for being, described in wake control module up and generate and perform and be in first of wake-up states wake instruction up for controlling described current state, be adjusted to described wake-up states to control described current state from described holding state.

11. electronic equipments as claimed in claim 10, it is characterized in that, described hardware system also comprises the signal receiving module be connected with described embedded controller EC, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described operating system is used for when detecting that the signal receiving module of described electronic equipment receives wake-up signal, generate described first wake request, and send described first wake request to described in wake control module up, and

Described embedded controller EC be used for when detecting that described signal receiving module receives described wake-up signal, generate described second wake request, and send described second wake request to described in wake control module up.

12. electronic equipments as claimed in claim 11, it is characterized in that, described signal receiving module is specially: networking signal receiving module or hardware switch module.

13. electronic equipments as claimed in claim 10, it is characterized in that, the second wake request that control module judges whether have received the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment is waken up described, before obtaining the first judged result, described embedded controller EC is first mode or the second pattern for detecting the current operation mode of described electronic equipment, obtains the first testing result;

When described first testing result shows that described current operation mode is described first mode, whether described embedded controller EC is less than first for the current electric quantity detecting the battery of described electronic equipment is preset electricity, obtains the second testing result;

When described second testing result shows that described current electric quantity is less than the described first default electricity, the described control module that wakes up, for judging whether have received second wake request of the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment, obtains the first judged result.

14. electronic equipments as claimed in claim 13, it is characterized in that, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening, and described second pattern is the described mobile broadband connection mode when described WIFI module is in closed condition.

15. methods as described in claim 13 or 14, it is characterized in that, when described first testing result shows that described current operation mode is described second pattern, the described control module that wakes up, for judging whether have received second wake request of the first wake request from the operating system of described electronic equipment and the embedded controller EC from described electronic equipment, obtains the first judged result.

16. electronic equipments as claimed in claim 10, it is characterized in that, described electronic equipment also comprises the battery be connected with described embedded controller EC, when described first judged result is no, whether described embedded controller EC is more than or equal to second for the current electric quantity detecting described battery is preset electricity, obtains the 3rd testing result;

When described 3rd testing result shows that described current electric quantity is more than or equal to the described second default electricity, described wake up control module for generate and perform for control described current state be in described wake-up states from described first wake up instruction different second wake instruction up, be adjusted to described wake-up states to control described current state from described holding state.

17. electronic equipments as claimed in claim 16, it is characterized in that, whether the current electric quantity detecting the battery of described electronic equipment at described embedded controller EC is more than or equal to the second default electricity, before obtaining the 3rd testing result, described embedded controller EC, for detecting whether the current operation mode of described electronic equipment is first mode, obtains the 4th testing result;

When described 4th testing result is for being, whether described embedded controller EC is more than or equal to second for the current electric quantity detecting the battery of described electronic equipment is preset electricity, obtains the 3rd testing result.

18. electronic equipments as claimed in claim 17, is characterized in that, described first mode is the mobile broadband connection mode when the WIFI module of described electronic equipment is in opening.