CN104866063B

CN104866063B - A kind of method and electronic equipment of information processing

Info

Publication number: CN104866063B
Application number: CN201410058952.9A
Authority: CN
Inventors: 彭金刚
Original assignee: Lenovo Beijing Ltd
Current assignee: Lenovo Beijing Ltd
Priority date: 2014-02-20
Filing date: 2014-02-20
Publication date: 2018-08-10
Anticipated expiration: 2034-02-20
Also published as: CN104866063A

Abstract

This application discloses a kind of method of information processing and electronic equipment, the big technical problem of the composite electronic amount of equipment power consumption of " win+phone " framework for solving to realize based on windows systems in the prior art, the method includes：When the current state of the electronic equipment is standby mode, wake-up control unit in the electronic equipment judges whether the second wake request for having received the first wake request of the operating system from the electronic equipment and the embedded controller EC from the electronic equipment, obtains the first judging result；When first judging result is to be, the control unit that wakes up generates and executes the first wake-up instruction that wake-up states are in for controlling the current state, and the wake-up states are adjusted to from the standby mode to control the current state.

Description

A kind of method and electronic equipment of information processing

Technical field

This application involves electronic technology field, more particularly to the method and electronic equipment of a kind of information processing.

Background technology

With the fast development of electronic technology, many electronic equipments no longer have the function of single.As mobile phone not only can be with Make a phone call, send short messages, and can also surf the Internet, listen song, see video etc.；For another example television set can not only receive regarding from TV station Shield signal, moreover it is possible to wireless networking etc..Suchlike electronic equipment is very more, keeps people’s lives more rich and varied.

The diversification of electronic functionalities is since the developer of electronic equipment has by research and development test by originally a variety of The software and/or hardware of the electronic equipment of simple function have been fused in an electronic equipment, and such as current many electronic equipments are opened The computer with telephony feature that hair quotient is researching and developing, exactly adds the function of mobile phone in original computer.Due to most of User gets used to the computer product of windows systems, and to cater to the use demand of user, some developers are being based on Windows systems develop the computer with telephony feature, i.e. the composite electronic equipment of " win+phone " framework.

Present inventor has found above-mentioned technology at least during inventive technique scheme in realizing the embodiment of the present application It has the following technical problems：

Currently, the research of the composite electronic equipment of " win+phone " framework is perfect not enough, power consumption is equivalent to one The power consumption of a computer and a mobile phone, that is to say, that " win+ realized based on windows systems exists in the prior art The big technical problem of the composite electronic amount of equipment power consumption of phone " frameworks.

Invention content

The embodiment of the present application is by providing a kind of method and electronic equipment of information processing, to solve base in the prior art In the big technical problem of the composite electronic amount of equipment power consumption of " win+phone " framework that windows systems are realized, realize The wake-up for participating in control electronics when electronic equipment is in standby by EC, avoids or alleviates the frequent of operating system It actively wakes up, increases 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, is applied in an electronic equipment, the side Method includes：

When the current state of the electronic equipment is standby mode, the wake-up control unit in the electronic equipment judges Whether first wake request of operating system from the electronic equipment is had received and from the embedding of the electronic equipment Enter the second wake request of formula controller EC, obtains the first judging result；

When first judging result is to be, the wake-up control unit is generated and is executed for controlling the current shape State is in the first wake-up instruction of wake-up states, and the wake-up shape is adjusted to from the standby mode to control the current state State.

Optionally, judge whether to have received the operating system from the electronic equipment in the wake-up control unit Second wake request of the first wake request and embedded controller EC from the electronic equipment obtains first and judges knot Before fruit, the method further includes：

When the operating system detects that the signal receiving module of the electronic equipment receives wake-up signal, the behaviour Make system and generate first wake request, and sends first wake request to the wake-up control unit；And

It is described embedding when the embedded controller EC detects that the signal receiving module receives the wake-up signal Enter formula controller EC and generate second wake request, and sends second wake request to the wake-up control unit.

Optionally, the signal receiving module is specially：Network signal receiving module or hardware switch module.

The current operation mode for detecting the electronic equipment is first mode or second mode, obtains the first detection knot Fruit；

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

When second testing result shows that the current electric quantity is less than the first default electricity, step is executed：It calls out Awake control unit judges whether to have received the first wake request of the operating system from the electronic equipment and comes from institute The second wake request of the embedded controller EC of electronic equipment is stated, the first judging result is obtained.

Optionally, the first mode is the mobile broadband when the WIFI module of the electronic equipment is in open state Connection mode, the second mode are the mobile broadband connection mode when the WIFI module is closed.

Optionally, it is first mode or second mode in the current operation mode of the detection electronic equipment, obtains After obtaining the first testing result, the method further includes：

When first testing result shows that the current operation mode is the second mode, step is executed：It wakes up Control unit judges whether to have received the first wake request of the operating system from the electronic equipment and from described The second wake request of the embedded controller EC of electronic equipment obtains the first judging result.

Optionally, judge whether to have received the operating system from the electronic equipment in the wake-up control unit Second wake request of the first wake request and embedded controller EC from the electronic equipment obtains first and judges knot After fruit, the method further includes：

When first judging result is no, the embedded controller EC detects working as the battery of the electronic equipment Whether preceding electricity is more than or equal to the second default electricity, obtains third testing result；

When the third testing result shows that the current electric quantity is more than or equal to the second default electricity, the wake-up Control unit is generated and executed is in being instructed not with first wake-up for the wake-up states for controlling the current state Same second wakes up instruction, and the wake-up states are adjusted to from the standby mode to control the current state.

Optionally, detected in the embedded controller EC battery of the electronic equipment current electric quantity whether be more than etc. In the second default electricity, before obtaining third testing result, the method further includes：

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

When the 4th testing result is to be, step is executed：The embedded controller EC detects the electronic equipment Battery current electric quantity whether be more than or equal to the second default electricity, obtain third testing result.

Optionally, the first mode is the mobile broadband when the WIFI module of the electronic equipment is in open state Connection mode.

On the other hand, the embodiment of the present application also provides a kind of electronic equipments of information processing, including：Hardware system, packet Include the embedded controller EC for waking up control unit and being connect with the wake-up control unit;

And the operating system based on hardware system operation；

Wherein, when the current state of the electronic equipment is standby mode, the wake-up control unit judges whether to connect The first wake request from the operating system and the second wake request from the embedded controller EC are had received, Obtain the first judging result；

Optionally, the hardware system further includes the signal receiving module being connect with the embedded controller EC, in institute Wake-up control unit is stated to judge whether to have received the first wake request of the operating system from the electronic equipment and come From the second wake request of the embedded controller EC of the electronic equipment, before obtaining the first judging result, the operation system System is asked for when detecting that the signal receiving module of the electronic equipment receives wake-up signal, generating first wake-up It asks, and sends first wake request to the wake-up control unit；And

The embedded controller EC is used for when detecting that the signal receiving module receives the wake-up signal, raw At second wake request, and second wake request is sent to the wake-up control unit.

Optionally, judge whether to have received the operating system from the electronic equipment in the wake-up control unit Second wake request of the first wake request and embedded controller EC from the electronic equipment obtains first and judges knot Before fruit, the embedded controller EC is first mode or second for detecting the current operation mode of the electronic equipment Pattern obtains the first testing result；

When first testing result shows that the current operation mode is the first mode, the embedded Control Whether the current electric quantity that device EC is used to detect the battery of the electronic equipment is less than the first default electricity, obtains the second detection knot Fruit；

When second testing result shows that the current electric quantity is less than the first default electricity, the wake-up control Unit is used to judge whether to have received the first wake request of the operating system from the electronic equipment and from described The second wake request of the embedded controller EC of electronic equipment obtains the first judging result.

Optionally, described to call out when first testing result shows that the current operation mode is the second mode Control unit of waking up is used to judge whether to have received the first wake request of the operating system from the electronic equipment and comes From the second wake request of the embedded controller EC of the electronic equipment, the first judging result is obtained.

Optionally, the electronic equipment further includes the battery being connect with the embedded controller EC, is sentenced when described first When disconnected result is no, whether the current electric quantity that the embedded controller EC is used to detect the battery is default more than or equal to second Electricity obtains third testing result；

When the third testing result shows that the current electric quantity is more than or equal to the second default electricity, the wake-up Control unit is used to generate and execute is in referring to first wake-up for the wake-up states for controlling the current state It enables different second wake up instruction, the wake-up states is adjusted to from the standby mode to control the current state.

Optionally, detected in the embedded controller EC battery of the electronic equipment current electric quantity whether be more than etc. In the second default electricity, before obtaining third testing result, the embedded controller EC is for detecting the electronic equipment Whether current operation mode is first mode, obtains the 4th testing result；

When the 4th testing result is to be, the embedded controller EC is used to detect the battery of the electronic equipment Current electric quantity whether be more than or equal to the second default electricity, obtain third testing result.

One or more technical solutions provided in the embodiments of the present application have at least the following technical effects or advantages：

（1）Due in the embodiment of the present application, when the current state of electronic equipment is standby mode, in electronic equipment Control unit is waken up to determine whether to have received the first wake request of the operating system from the electronic equipment and come From the second wake request of the embedded controller EC of the electronic equipment, the first judging result is obtained, when first judgement As a result it is that the wake-up control unit is generated and executed and is in the first of wake-up states for controlling the current state and calls out when being It wakes up and instructs, the wake-up states are adjusted to from the standby mode to control the current state, that is to say, that it is single to wake up control Member will also detect when receiving the wake request from operating system and know that EC also sends wake request and just wakes up electronics and set It is standby, solve the composite electronic equipment of " win+phone " framework existing in the prior art realized based on windows systems The big technical problem of power consumption realizes and participates in calling out for control electronics by EC when electronic equipment is in standby It wakes up, avoids or alleviate the frequent of operating system and actively wake up, increase effective stand-by time of electronic equipment, save electronic equipment The technique effect of power consumption.

（2）Since in the embodiment of the present application, operating system and embedded controller EC can be received detecting signal When the signal receiving module that module receives electronic equipment receives wake-up signal, wake request is sent out to control unit is waken up, Wherein, signal receiving module is specially network signal receiving module and hardware switch module, that is to say, that electronic equipment is busy Part needs just wake up when processing, and in no event, electronic equipment is in depth standby mode, and ensure that electronic equipment has Imitate stand-by time, and will not when standby drain process event.

（3）Since in the embodiment of the present application, electronic equipment can detect the current operation mode of itself, and in WIFI When module is in the mobile broadband connection mode of open state, embedded controller EC can detect the current of the battery of electronic equipment Electricity, and when current electric quantity is less than the first default electricity, when being such as the 30% of battery Full Charge Capacity, it is just comprehensive to wake up control unit Consider operating system wake request and EC wake requests, or the mobile broadband connection mode being closed in WIFI module When, it wakes up control unit and just considers operating system wake request and EC wake requests, wake-up processing is carried out to electronic equipment, And then the different working modes of electronic equipment can be directed to, different electricity progress targetedly carry out wake-up behaviour to electronic equipment Make, realize electronic equipment it is standby under the larger operating mode of power consumption when can effectively it is standby, save electricity technology effect Fruit.

（4）Since in the embodiment of the present application, when waking up control module, there is no the wake-ups for both receiving operating system to ask When asking and receiving the wake request of embedded controller EC, embedded controller EC can judge whether the current electric quantity of battery is big In equal to the second default electricity, and when battery current electric quantity is more than or equal to the second default electricity, wakes up control module and generate simultaneously It executes second and wakes up wake instruction electronic equipment, it is wake-up states to make electronic equipment current state, realizes wake-up control module Wake request is handled according to the charge condition of electronic equipment, electronic equipment is targetedly waken up, ensure that the work of electronic equipment Make the technique effect of efficiency.

Description of the drawings

Fig. 1 is a kind of method flow diagram of information processing provided by the embodiments of the present application；

Fig. 2 is that SoC provided by the embodiments of the present application and EC controls wake up electronic equipment schematic diagram；

Fig. 3 is that EC provided by the embodiments of the present application controls wake up electronic equipment schematic diagram；

Fig. 4 is the structure chart of a kind of electronic equipment provided by the embodiments of the present application.

Specific implementation mode

The embodiment of the present application is solved and is based in the prior art by providing a kind of method and electronic equipment of information processing The big technical problem of composite electronic amount of equipment power consumption of " win+phone " framework that windows systems are realized, realizes in electricity The wake-up for participating in control electronics when sub- equipment is in standby by EC, avoids or alleviates the frequent master of operating system It is dynamic to wake up, increase effective stand-by time of electronic equipment, saves the technique effect of electronic equipment power consumption.

Technical solution in the embodiment of the present application is to solve the above problems, general thought is as follows：

A kind of method of information processing is provided, is applied in an electronic equipment, the method includes：In the electronic equipment Current state when being standby mode, the wake-up control unit in the electronic equipment judges whether to have received from the electricity The second of first wake request of the operating system of sub- equipment and embedded controller EC from the electronic equipment wakes up Request obtains the first judging result；When first judging result is to be, the wake-up control unit, which is generated and executed, to be used for The first wake-up instruction that the current state is in wake-up states is controlled, to control the current state from the standby mode tune Whole is the wake-up states.

As it can be seen that due in the embodiment of the present application, when the current state of electronic equipment is standby mode, in electronic equipment Wake-up control unit determine whether to have received the first wake request of the operating system from the electronic equipment and The second wake request of embedded controller EC from the electronic equipment, obtains the first judging result, sentences when described first Disconnected result is when being, the wake-up control unit generates and executes be in wake-up states for controlling the current state first Instruction is waken up, the wake-up states are adjusted to from the standby mode to control the current state, that is to say, that wakes up control Unit will also detect when receiving the wake request from operating system and know that EC also sends wake request and just wakes up electronics Equipment, the composite electronic for solving " win+phone " framework existing in the prior art realized based on windows systems are set The big technical problem of standby power consumption, realizes and participates in calling out for control electronics by EC when electronic equipment is in standby It wakes up, avoids or alleviate the frequent of operating system and actively wake up, increase effective stand-by time of electronic equipment, save electronic equipment The technique effect of power consumption.

In order to better understand the above technical scheme, in conjunction with appended figures and specific embodiments to upper It states technical solution to be described in detail, it should be understood that the specific features in the embodiment of the present application and embodiment are to the application The detailed description of technical solution, rather than to the restriction of technical scheme, in the absence of conflict, the application is implemented Technical characteristic in example and embodiment can be combined with each other.

Referring to FIG. 1, the method for information processing provided by the embodiments of the present application is applied in an electronic equipment, such as there is hand The PC machine of machine function, the tablet computer with cell-phone function, the method specifically include step：

S101：When the current state of the electronic equipment is standby mode, the wake-up control in the electronic equipment is single Member judges whether to have received the first wake request of the operating system from the electronic equipment and be set from the electronics The second wake request of standby embedded controller EC obtains the first judging result；

S102：When first judging result is to be, the wake-up control unit is generated and is executed described for controlling Current state is in the first wake-up instruction of wake-up states, is adjusted to described from the standby mode to control the current state Wake-up states.

In specific implementation process, in order to just make electronic equipment have event that can be waken up when needing processing, in no event When electronic equipment be in depth standby mode, ensure effective stand-by time of electronic equipment, and will not when standby drain process Event judges whether that the first wake-up for having received the operating system from the electronic equipment is asked in the wake-up control unit It asks and the second wake request of embedded controller EC from the electronic equipment, before obtaining the first judging result, institute The method of stating further includes：

Specifically, wherein the signal receiving module is specially：Network signal receiving module or hardware switch module.

In specific implementation process, in order to there is the different working modes for being directed to electronic equipment, different electricity are into the hand-manipulating of needle To being waken up to electronic apparatus system for property, realize electronic equipment it is standby under the larger operating mode of power consumption when can It is effectively standby, save the technique effect of electricity.

Specifically, in order to make electronic equipment under the big operating modes of power consumption such as WIFI module unlatching, it can be according to electricity The practical electricity in pond targetedly wakes up electronic equipment, i.e., when electric quantity for electronic equipment is relatively low, control electronics It is waken up with passive wake-up mode, avoids or alleviate the situation that electronic device system frequently actively wakes up and occur, to The power consumption for saving electronic equipment, judges whether to have received the operation from the electronic equipment in the wake-up control unit Second wake request of the first wake request of system and embedded controller EC from the electronic equipment obtains first Before judging result, the method further includes：

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

Specifically, the first mode is the mobile broadband when the WIFI module of the electronic equipment is in open state Connection mode, the second mode are the mobile broadband connection mode when the WIFI module is closed.

In addition, in order to make electronic equipment when working in common mobile broadband connection mode, i.e. the WIFI of electronic equipment When module is not opened, system is directly allowed to enter the standby shape body of depth of non-self wake-up, so as to increase having for electronic equipment Stand-by time is imitated, is first mode or second mode in the current operation mode of the detection electronic equipment, obtains the After one testing result, the method further includes：

In specific implementation process, in order to make electronic equipment in electricity abundance, remain to be asked according to the active of system wake-up It asks, wake operation is carried out to electronic equipment, judges whether to have received from the electronic equipment in the wake-up control unit Operating system the first wake request and embedded controller EC from the electronic equipment the second wake request, obtain After obtaining the first judging result, the method further includes：

When first judging result is no, the embedded controller EC detects working as the battery of the electronic equipment Whether preceding electricity is more than or equal to the second default electricity, is specifically as follows the 30% of battery Full Charge Capacity, obtains third testing result；

Further, it in order to make electronic equipment in WIFI module unlatching and electricity abundance, remains to be called out according to the active of system Request of waking up detects working as the battery of the electronic equipment in the embedded controller EC to electronic equipment progress wake operation Whether preceding electricity is more than or equal to the second default electricity, and before obtaining third testing result, the method further includes：

Specifically, the first mode is the mobile broadband when the WIFI module of the electronic equipment is in open state Connection mode.

It describes in detail to said program below by following embodiment.

Embodiment one

In the embodiment of the present application, realize that the electronic equipment of phone functions is with the windows systems based on PC versions Example, the product form of the electronic equipment can be that pad and mobile phone, this type are integrated in an electronic equipment Electronic equipment the hardware module of pad and phone is equally contained on hardware, claim the electricity of this type in the embodiment of the present application Sub- equipment is pad+phone.The system level chip SoC of pad+phone（System on Chip）Composition can be system-level Chip controls logic module, microprocessor/microcontroller CPU core module, digital signal processor DSP module, insertion are deposited Memory modules and the external interface module communicated, the analog front-end module containing ADC/DAC, power supply provides and power consumption pipe Module is managed, also has RF front-end module, user to define logic one wireless SoC（It is realized by FPGA or ASIC）, Yi Jiwei Electric mechanical module, it is often more important that the user software etc. that a SoC chip is embedded with basic software modules or can be loaded into.Having In body application, the operating system of electronic equipment is stored in such as windows operating systems in SoC.

In practical applications, if the electronic equipment of windows systems is not used for a long time under open state, Relevant operation is not carried out to electronic equipment, the embedded controller EC of electronic equipment can control the power supply of power management module Output, and control electronics enter standby mode.When electronic equipment is in standby, and electronic equipment is windows systems When system, electronic equipment can be waken up by automatically waking up and passively waking up two ways.

Specifically, it is mainly that windows systems actively wake up that active here, which wakes up, when electronic equipment is standby, Windows systems can wake up electronic equipment per 30s and carry out Network Synchronization, after windows operating systems send out wake request, electronics The power supply of the SoC of equipment provides and the power module of power managed module control electronics is that electronic equipment is normally supplied Electricity so that electronic equipment is in wake-up states, i.e. Activity states.Passive wake up refers to the electronics when electronic equipment is standby The information receiving module of equipment can receive message event, after SoC receives message event, can control power module and be set for electronics Standby normal power supply, makes electronic equipment be in wake-up states；In addition, working as power key of the user by control electronics（Power Button）Starting electronic equipment makes electronic equipment be in wake-up states, also belongs to passive wake-up mode.

In the embodiment of the present application, in order to when electronic equipment is in standby, control electronics are participated in by EC Wake-up, avoid or alleviate operating system frequently automatically waking up electronic equipment, increase effectively waiting for for electronic equipment to reach The machine time, the purpose saved energy, referring to FIG. 2, it is provided with wake-up control unit in the electronic device, and it is single to wake up control When member only receives the wake request that operating system and embedded controller EC202 are sent out in SoC201 at the same time, just wake up Electronic equipment makes electronic equipment be in Activity states.

Specifically, referring still to Fig. 2, wake up in control unit comprising hardware logic and door 203.It sends out and calls out in operating system When awake request, the SLP_S0ix_B signals of SoC set height, as logical one, when embedded controller EC sends out wake request, The EC_GPIO signals of EC set height, as logical one, and above-mentioned two is the signal of logical one with door 203 by hardware logic at this time It carries out, " with operation ", generating SLP_B signals, control wakes up the power management IC in control unit（PMIC）204, make its control pipe Battery module is managed to electronic equipment normal power supply, to achieve the purpose that wake up electronic equipment；Opposite, it is sent out when in operating system When going out wake request, the SLP_S0ix_B signals of SoC set height, as logical one, at this point, embedded controller EC does not send out and calls out Wake up request, the EC_GPIO signals of EC set low, as logical zero, at this time hardware logic and door 203 by SLP_S0ix_B signals and EC_GPIO signals carry out that, " with operation ", SLP_B signals will not be generated, or the SLP_B signals generated do not have control power management IC（PMIC）204 carry out the function of normal power supply.

Embodiment two

In specific implementation process, for the pad+phone electronic equipments of standby mode, operating system is avoided or alleviated Active wake up, electronic equipment is mainly waken up in a manner of passively waking up.In the present embodiment, mainly to the passive of electronic equipment Flow is waken up to be introduced.When receiving event signal, operating system and embedded controller EC just send out and call out electronic equipment It wakes up and asks.

Believe referring to FIG. 3, the signal receiving module of electronic equipment includes mainly network signal receiving module and hardware switch Number receiving module, wherein network signal receiving module includes reception of wireless signals module and wire signal receiving module.Electricity at present Sub- equipment is mainly used for wirelessly communicating, and network signal receiving module is based on reception of wireless signals module, including WIFI signal connects Receive module 301, BT signal receiving modules 302,3G/LTE signal receiving modules 303 etc..For hardware switch signal receiving module, It is specifically as follows the power switch key of electronic equipment（Power Button）304.

In figure 3, the embedded controller EC305 of electronic equipment receives mould with WIFI signal receiving module 301, BT signals The power switch key of block 302,3G/LTE signal receiving modules 303 and electronic equipment（Power Button）304 are connected, when Any of which module sends out wake-up signal, and EC can generate wake request, and be sent to power management IC（PMIC）306, so that PMIC control management battery modules are to electronic equipment normal power supply, to make electronic equipment be in wake-up states.

In the present embodiment, due to receiving the either signal in above-mentioned signal receiving module in embedded controller EC When the wake-up signal of receiving module, the SoC of electronic equipment can also receive the wake-up signal, and send out wake request, if It is only to ensure that electronic apparatus system is in the depth standby mode of non-self wake-up, does not need to consider calling out of being sent out of SoC It wakes up and asks.So in figure 3, only having embodied the wake-up mode for sending out wake request when EC receives wake-up signal to PMIC.

Embodiment three

When electronic device works are in the mobile broadband connection mode that WIFI module is opened, embedded controller EC can be detected The current electric quantity of electric device battery, if current electric quantity is less than the 30% of battery Full Charge Capacity, referring to FIG. 2, EC202 can will be defeated Go out and set low to the EC_GPIO signals of hardware logic and door 203, and with the control mode in embodiment two, control wakes up electronics and sets It is standby, that is to say, that referring to FIG. 3, being controlled by the EC of electronic equipment whether the system wake-up of electronic equipment, if the signal of EC connects It receives module and receives WIFI signal receiving module 301, BT signal receiving modules 302,3G/LTE signal receiving modules 303 and power supply On ＆ off switch（Power Button）When 304, EC sends wake request, wakes up system, otherwise, electronic equipment is in the standby shape of depth State only supports the wake-ups such as mail, short message, phone.

When the mobile broadband connection mode that electronic device works are opened in WIFI module, and EC detects the current electricity of battery When amount is more than or equal to the 30% of battery Full Charge Capacity, illustrate that the current electric quantity of electronic equipment is more sufficient, referring to FIG. 2, EC202 meetings The EC_GPIO signals that will be imparted to hardware logic and door 203 set height so that the state of electronic equipment is controlled by SoC, and system is in The state of OS controls, periodically automatically wakes up and updates the data, that is to say, that electronic equipment can be sent out according to operating system per 30s Request is automatically waken up frequently to wake up electronic equipment, to be synchronized to network, meanwhile, it also can be in the letter of electronic equipment Number receiving module receives the network event informations such as mail, short message, phone, or when receiving power switch control signal pair Electronic equipment is waken up.

When electronic device works are in the mobile broadband connection mode that WIFI module is closed, referring to FIG. 2, EC202 can be incited somebody to action It exports and is set low to the EC_GPIO signals of hardware logic and door 203, and with the control mode in embodiment two, control wakes up electronics Equipment, that is to say, that referring to FIG. 3, being controlled by the EC of electronic equipment whether the system wake-up of electronic equipment, if the signal of EC Receiving module receives WIFI signal receiving module 301, BT signal receiving modules 302,3G/LTE signal receiving modules 303 and electricity Source switch key（Power Button）When 304, EC sends wake request, wakes up system, otherwise, it is standby that electronic equipment is in depth State only supports the wake-ups such as mail, short message, phone.

Due to system on chip SOC, there is radio frequency front end, and the front ends SOC and RF are the synthesis of " win+phone " framework Main power consumption module of the type electronic equipment in system standby.Wherein, the unit interval power consumption of SOC is 55mw, the list of the front ends RF Position time power consumption is 15mw.By taking the Full Charge Capacity of electric device battery is 12wh as an example：

Windows systems are generally used for computer, this system has a kind of characteristic to be exactly, and when electronic equipment is standby, are System can actively wake up electronic equipment per 30s, and electronic apparatus system has 0.5s and is in activation after waking up（activity）State, In active state, the unit interval power consumption of electronic equipment is 2000mw, then can calculate, do not take application scheme it Before, i.e. the not optimized unit interval power consumption of the system of electronic equipment is：

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

The system of electronic equipment can be calculated when not optimized, the usage time of battery is：

12wh/102mw≈117h

When electronic device works are in the mobile broadband connection mode that WIFI module is opened, because electronic equipment is worked as in battery Preceding electricity be less than battery Full Charge Capacity 30% when just take application scheme to optimize processing, that is to say, that battery capacity More than or equal to Full Charge Capacity 70% when, the unit work consumptiom of electronic equipment is the unit interval power consumption of system in usual cases, in electricity When pond electricity is less than the 30% of Full Charge Capacity, the unit work consumptiom of electronic equipment is the power consumption of the front ends SoC and RF, then working herein Under pattern, the usage time of battery is：

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

When electronic device works are in the mobile broadband connection mode that WIFI module is closed, it is standby that electronic equipment is in depth State, main power consumption module is the front ends SOC and RF, then the usage time of battery is：

12wh/（55mw+15mw）≈171h

As it can be seen that in the present embodiment, when electronic equipment is in standby, electronic equipment is according to the work at present of itself Pattern and the current electric quantity of battery targetedly participate in Control management system by embedded controller EC and wake up, and increase Effective stand-by time of electronic equipment, has saved power consumption, extends the usage time of battery.

Based on same inventive concept, the embodiment of the present application also provides a kind of electronic equipments of information processing, please refer to figure 4, including：Hardware system, including wake up control unit 401 and with the embedded Control that connect of wake-up control unit 401 Device EC402;

And the operating system 403 based on hardware system operation；

Wherein, when the current state of the electronic equipment is standby mode, the wake-up control unit 401 judges whether Have received the first wake request from the operating system 403 and second from the embedded controller EC402 Wake request obtains the first judging result；

When first judging result is to be, the wake-up control unit 401 is generated and is executed for controlling described work as What preceding state was in wake-up states first wakes up instruction, and being adjusted to described from the standby mode to control the current state calls out The state of waking up.

In specific implementation process, in order to just make electronic equipment have event that can be waken up when needing processing, in no event When electronic equipment be in depth standby mode, ensure effective stand-by time of electronic equipment, and will not when standby drain process Event, the hardware system further include the signal receiving module 404 being connect with the embedded controller EC402, are called out described The control unit 401 of waking up judge whether to have received the first wake request of the operating system 403 from the electronic equipment and The second wake request of embedded controller EC402 from the electronic equipment, before obtaining the first judging result, the behaviour Make system 403 for when the signal receiving module 404 for detecting the electronic equipment receives wake-up signal, generates described the One wake request, and first wake request is sent to the wake-up control unit；And

The embedded controller EC402 is used to detect that the signal receiving module 404 receives wake-ups and believe Number when, generate second wake request, and send second wake request to the wake-up control unit 401.

Specifically, in order to make electronic equipment under the big operating modes of power consumption such as WIFI module unlatching, it can be according to electricity The practical electricity in pond targetedly wakes up electronic equipment, i.e., when electric quantity for electronic equipment is relatively low, control electronics It is waken up with passive wake-up mode, avoids or alleviate the situation that electronic device system frequently actively wakes up and occur, to The power consumption for saving electronic equipment, judges whether to have received from the electronic equipment in the wake-up control unit 401 The second of first wake request of operating system 403 and embedded controller EC402 from the electronic equipment, which wakes up, asks It asks, before obtaining the first judging result, the embedded controller EC402 is used to detect the work at present mould of the electronic equipment Formula is first mode or second mode, obtains the first testing result；

When first testing result shows that the current operation mode is the first mode, the embedded Control Whether the current electric quantity that device EC402 is used to detect the battery of the electronic equipment is less than the first default electricity, obtains the second detection As a result；

In addition, in order to make electronic equipment when working in common mobile broadband connection mode, i.e. the WIFI of electronic equipment When module is not opened, system is directly allowed to enter the standby shape body of depth of non-self wake-up, so as to increase having for electronic equipment Stand-by time is imitated, when first testing result shows that the current operation mode is the second mode, the wake-up control Unit 401 processed be used to judge whether to have received the operating system 403 from the electronic equipment the first wake request and The second wake request of embedded controller EC402 from the electronic equipment obtains the first judging result.

In specific implementation process, in order to make electronic equipment in electricity abundance, remain to be asked according to the active of system wake-up It asks, wake operation is carried out to electronic equipment, the electronic equipment further includes the battery being connect with the embedded controller EC402 405, when first judging result is no, the embedded controller EC402 is used to detect the current electricity of the battery 405 Whether amount is more than or equal to the second default electricity, obtains third testing result；

When the third testing result shows that the current electric quantity is more than or equal to the second default electricity, the wake-up Control unit 401 is used to generate and execute is in being waken up with described first for the wake-up states for controlling the current state It instructs different second to wake up instruction, the wake-up states is adjusted to from the standby mode to control the current state.

Further, it in order to make electronic equipment in WIFI module unlatching and electricity abundance, remains to be called out according to the active of system Request of waking up detects the battery of the electronic equipment to electronic equipment progress wake operation in the embedded controller EC402 Whether 404 current electric quantity is more than or equal to the second default electricity, before obtaining third testing result, the embedded controller EC402 obtains the 4th testing result for detecting whether the current operation mode of the electronic equipment is first mode；

When the 4th testing result is to be, the embedded controller EC402 is for detecting the electronic equipment Whether the current electric quantity of battery 405 is more than or equal to the second default electricity, obtains third testing result.

As described above, above-mentioned electronic equipment is for realizing above- mentioned information processing method, so, the electronic equipment The course of work is consistent with one or more embodiments of the above method, just no longer repeats one by one herein.

It should be understood by those skilled in the art that, the embodiment of the present invention can be provided as method, system or computer program Product.Therefore, complete hardware embodiment, complete software embodiment or reality combining software and hardware aspects can be used in the present invention Apply the form of example.Moreover, the present invention can be used in one or more wherein include computer usable program code computer Usable storage medium（Including but not limited to magnetic disk storage, CD-ROM, optical memory etc.）The computer program of upper implementation produces The form of product.

The present invention be with reference to according to the method for the embodiment of the present invention, equipment（System）And the flow of computer program product Figure and/or block diagram describe.It should be understood that can be realized by computer program instructions every first-class in flowchart and/or the block diagram The combination of flow and/or box in journey and/or box and flowchart and/or the block diagram.These computer programs can be provided Instruct the processor of all-purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine so that the instruction executed by computer or the processor of other programmable data processing devices is generated for real The device for the function of being specified in present one flow of flow chart or one box of multiple flows and/or block diagram or multiple boxes.

These computer program instructions, which may also be stored in, can guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works so that instruction generation stored in the computer readable memory includes referring to Enable the manufacture of device, the command device realize in one flow of flow chart or multiple flows and/or one box of block diagram or The function of being specified in multiple boxes.

These computer program instructions also can be loaded onto a computer or other programmable data processing device so that count Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, in computer or The instruction executed on other programmable devices is provided for realizing in one flow of flow chart or multiple flows and/or block diagram one The step of function of being specified in a box or multiple boxes.

Specifically, the corresponding computer program instructions of information processing method in the embodiment of the present application can be stored in CD, hard disk, on the storage mediums such as USB flash disk, when computer program instructions corresponding with the information processing method in storage medium It is read or is performed by an electronic equipment, include the following steps：

Optionally, be also stored with other computer instruction in the storage medium, these computer instructions with step Suddenly：Judge whether to have received the first wake request of the operating system from the electronic equipment in the wake-up control unit And the second wake request of the embedded controller EC from the electronic equipment, obtain the corresponding calculating of the first judging result Machine instruction, which is performed before, to be performed, and is included the following steps when executed：

Optionally, be also stored with other computer instruction in the storage medium, these computer instructions with step Suddenly：It is first mode or second mode in the current operation mode of the detection electronic equipment, obtains the first detection knot The corresponding computer instruction of fruit is performed after being performed, and is included the following steps when executed：

Optionally, be also stored with other computer instruction in the storage medium, these computer instructions with step Suddenly：Judge whether to have received the first wake request of the operating system from the electronic equipment in the wake-up control unit And the second wake request of the embedded controller EC from the electronic equipment, obtain the corresponding calculating of the first judging result Machine instruction is performed after being performed, and is included the following steps when executed：

Optionally, be also stored with other computer instruction in the storage medium, these computer instructions with step Suddenly：Whether the current electric quantity that the battery of the electronic equipment is detected in the embedded controller EC is more than or equal to the second default electricity Amount, the corresponding computer instruction of acquisition third testing result, which is performed before, to be performed, and is included the following steps when executed：

Although preferred embodiments of the present invention have been described, it is created once a person skilled in the art knows basic Property concept, then additional changes and modifications may be made to these embodiments.So it includes excellent that the following claims are intended to be interpreted as It selects embodiment and falls into all change and modification of the scope of the invention.

Obviously, various changes and modifications can be made to the invention without departing from essence of the invention by those skilled in the art God and range.In this way, if these modifications and changes of the present invention belongs to the range of the claims in the present invention and its equivalent technologies Within, then the present invention is also intended to include these modifications and variations.

Claims

1. a kind of information processing method is applied in an electronic equipment, the method includes：

When the current state of the electronic equipment is standby mode, the wake-up control unit in the electronic equipment judges whether Have received the first wake request of the operating system from the electronic equipment and from the embedded of the electronic equipment The second wake request of controller EC obtains the first judging result；

When first judging result is to be, the wake-up control unit is generated and is executed for controlling at the current state First in wake-up states wakes up instruction, and the wake-up states are adjusted to from the standby mode to control the current state.

2. the method as described in claim 1, which is characterized in that judge whether to have received in the wake-up control unit and come from The of first wake request of the operating system of the electronic equipment and embedded controller EC from the electronic equipment Two wake requests, before obtaining the first judging result, the method further includes：

When the operating system detects that the signal receiving module of the electronic equipment receives wake-up signal, the operation system System generates first wake request, and sends first wake request to the wake-up control unit；And

It is described embedded when the embedded controller EC detects that the signal receiving module receives the wake-up signal Controller EC generates second wake request, and sends second wake request to the wake-up control unit.

3. method as claimed in claim 2, which is characterized in that the signal receiving module is specially：Network signal receives mould Block or hardware switch module.

4. the method as described in claim 1, which is characterized in that judge whether to have received in the wake-up control unit and come from The of first wake request of the operating system of the electronic equipment and embedded controller EC from the electronic equipment Two wake requests, before obtaining the first judging result, the method further includes：

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

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

When second testing result shows that the current electric quantity is less than the first default electricity, step is executed：Wake up control Whether unit judges processed have received the first wake request of the operating system from the electronic equipment and come from the electricity The second wake request of the embedded controller EC of sub- equipment obtains the first judging result.

5. method as claimed in claim 4, which is characterized in that the first mode is the WIFI module in the electronic equipment Mobile broadband connection mode when in open state, the second mode are when the WIFI module is closed The mobile broadband connection mode.

6. method as described in claim 4 or 5, which is characterized in that in the work at present mould of the detection electronic equipment Formula is first mode or second mode, and after obtaining the first testing result, the method further includes：

When first testing result shows that the current operation mode is the second mode, step is executed：Wake up control Whether unit judges have received the first wake request of the operating system from the electronic equipment and come from the electronics The second wake request of the embedded controller EC of equipment obtains the first judging result.

7. the method as described in claim 1, which is characterized in that judge whether to have received in the wake-up control unit and come from The of first wake request of the operating system of the electronic equipment and embedded controller EC from the electronic equipment Two wake requests, after obtaining the first judging result, the method further includes：

When first judging result is no, the embedded controller EC detects the current electricity of the battery of the electronic equipment Whether amount is more than or equal to the second default electricity, obtains third testing result；

When the third testing result shows that the current electric quantity is more than or equal to the second default electricity, the wake-up control Unit is generated and executed is in the different from the first wake-up instruction of the wake-up states for controlling the current state Second wakes up instruction, and the wake-up states are adjusted to from the standby mode to control the current state.

8. the method for claim 7, which is characterized in that detect the electronic equipment in the embedded controller EC Whether the current electric quantity of battery is more than or equal to the second default electricity, and before obtaining third testing result, the method further includes：

When the 4th testing result is to be, step is executed：The embedded controller EC detects the electricity of the electronic equipment Whether the current electric quantity in pond is more than or equal to the second default electricity, obtains third testing result.

9. method as claimed in claim 8, which is characterized in that the first mode is the WIFI module in the electronic equipment Mobile broadband connection mode when in open state.

10. a kind of electronic equipment, including：Hardware system, including wake up control unit and connect with the wake-up control unit Embedded controller EC；

And the operating system based on hardware system operation；

Wherein, when the current state of the electronic equipment is standby mode, the wake-up control unit judges whether to receive The first wake request from the operating system and the second wake request from the embedded controller EC obtain First judging result；

11. electronic equipment as claimed in claim 10, which is characterized in that the hardware system further includes and the embedded control The signal receiving module of device EC connections processed judges whether to have received from the electronic equipment in the wake-up control unit Second wake request of the first wake request of operating system and embedded controller EC from the electronic equipment obtains Before first judging result, the operating system is used to detect that the signal receiving module of the electronic equipment receives wake-up When signal, first wake request is generated, and send first wake request to the wake-up control unit；And

The embedded controller EC is used for when detecting that the signal receiving module receives the wake-up signal, generates institute The second wake request is stated, and sends second wake request to the wake-up control unit.

12. electronic equipment as claimed in claim 11, which is characterized in that the signal receiving module is specially：Network signal Receiving module or hardware switch module.

13. electronic equipment as claimed in claim 10, which is characterized in that judge whether to receive in the wake-up control unit First wake request of the operating system from the electronic equipment and the embedded controller from the electronic equipment The second wake request of EC, before obtaining the first judging result, the embedded controller EC is for detecting the electronic equipment Current operation mode be first mode or second mode, obtain the first testing result；

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

When second testing result shows that the current electric quantity is less than the first default electricity, the wake-up control unit For judging whether to have received the first wake request of the operating system from the electronic equipment and coming from the electronics The second wake request of the embedded controller EC of equipment obtains the first judging result.

14. electronic equipment as claimed in claim 13, which is characterized in that the first mode is in the electronic equipment WIFI module is in mobile broadband connection mode when open state, and the second mode is to be in close in the WIFI module Mobile broadband connection mode when state.

15. electronic equipment according to claim 13 or 14, which is characterized in that show described work as in first testing result When preceding operating mode is the second mode, the wake-up control unit is set for judging whether to have received from the electronics Second wake request of the first wake request of standby operating system and embedded controller EC from the electronic equipment, Obtain the first judging result.

16. electronic equipment as claimed in claim 10, which is characterized in that the electronic equipment further includes and the embedded control The battery of device EC connections processed, when first judging result is no, the embedded controller EC is for detecting the battery Current electric quantity whether be more than or equal to the second default electricity, obtain third testing result；

When the third testing result shows that the current electric quantity is more than or equal to the second default electricity, the wake-up control Unit is used to generate and execute is in being instructed not with first wake-up for the wake-up states for controlling the current state Same second wakes up instruction, and the wake-up states are adjusted to from the standby mode to control the current state.

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

When the 4th testing result is to be, the embedded controller EC is used to detect working as the battery of the electronic equipment Whether preceding electricity is more than or equal to the second default electricity, obtains third testing result.

18. electronic equipment as claimed in claim 17, which is characterized in that the first mode is in the electronic equipment WIFI module is in mobile broadband connection mode when open state.