CN104615415B - A kind of information processing method and electronic equipment - Google Patents

Abstract

The present invention relates to information technology fields, a kind of information processing method and electronic equipment are disclosed, to solve the higher technical problem of electronic device energy consumption in the prior art, the information processing method, applied to electronic equipment, this method comprises: detection obtains the current operating conditions of electronic equipment；Based on the first corresponding relationship between operating status and power saving grade, the first power saving grade corresponding with current working status is determined from least two power saving grades, wherein each power saving grade corresponds to the different energy consumptions of electronic equipment；First parameter of electronic equipment is adjusted, the first battery saving mode corresponding with the first power saving grade is entered with controlling electronic devices, wherein when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is the first energy consumption corresponding with the first power saving grade.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technique

With the fast development of electronic technology, the function of various electronic equipments is also more and more abundant, more and more humanized, enables User has better Experience Degree during using electronic equipment.For adept machine, present smart phone can be with A small-sized computer has been modified to and is said, and not only there is powerful memory space, various softwares can be installed, and it is various Cell-phone function is also made more and more finely and human nature.

In the prior art, in order to save the energy consumption of smart phone, it is generally the case that if smart phone is whithin a period of time It is not received by user's operation, just will do it screen lock state, and then achieve the purpose that power saving,

Present inventor's discovery at least has the following technical problems in the prior art:

, can only be by controlling electronic devices screen locking due in the prior art, and then reduce the display screen of electronic equipment Energy consumption is to achieve the purpose that power saving, so it is higher to still remain electronic device energy consumption when electronic equipment is in running order The technical issues of.

Summary of the invention

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving electronic equipment in the prior art The higher technical problem of energy consumption.

According to the first aspect of the invention, a kind of information processing method is provided, electronic equipment, the method packet are applied to Include: detection obtains the current operating conditions of electronic equipment；Based on the first corresponding relationship between operating status and power saving grade, from At least two power saving grades determine the first power saving grade corresponding with the current working status, wherein each power saving grade is corresponding The different energy consumptions of the electronic equipment；First parameter of the electronic equipment is adjusted, with control the electronic equipment into Enter the first battery saving mode corresponding with the first power saving grade, wherein be in the first power saving mould in the electronic equipment When formula, the energy consumption of the electronic equipment is the first energy consumption corresponding with the first power saving grade.

With reference to first aspect, in the first possible implementation, the detection obtains the current operation of electronic equipment State, specifically: it determines the current working status of the electronic equipment and/or determine the electronic equipment is currently at operation The main program of state, the current working status and/or the main program are the current operating conditions.

With reference to first aspect, in the second possible implementation, the detection obtains the current operation of electronic equipment State, specifically: detection obtains the current time of the electronic equipment, and the current time is the current operating conditions.

Any one possible reality with reference to first aspect or in the first to two kind of possible implementation of first aspect Existing mode, in the third possible implementation, the electronic equipment includes N number of first hardware module, and described at least two Each power saving grade in power saving grade is corresponding at least one hardware module in N number of first hardware module, and N is positive whole Number, first parameter to the electronic equipment are adjusted, and are entered and first power saving with controlling the electronic equipment Corresponding first battery saving mode of grade, specifically: it is removed and first battery saving mode pair in control N number of first hardware module Other first hardware modules except the first hardware module of at least one answered are in close state, to control the electronic equipment Into first battery saving mode.

Any one possible reality with reference to first aspect or in the first to two kind of possible implementation of first aspect Existing mode, in the fourth possible implementation, the electronic equipment include the second hardware module, at least two power saving Each power saving grade in grade corresponds to the different value of the output parameter of second hardware module, described to the electronic equipment The first parameter be adjusted, to control the electronic equipment into the first power saving mould corresponding with the first power saving grade Formula, specifically: controlling the output parameter is the first value corresponding with first battery saving mode, to control the electronic equipment Into first battery saving mode.

Any one possible reality with reference to first aspect or in the first to two kind of possible implementation of first aspect Existing mode, in a fifth possible implementation, first parameter to the electronic equipment is adjusted, to control It states electronic equipment and enters the first battery saving mode corresponding with the first power saving grade, specifically: it controls in the electronic equipment The first application program corresponding with first battery saving mode is in close state, and enters described the to control the electronic equipment One battery saving mode.

According to the second aspect of the invention, a kind of electronic equipment is provided, comprising: detection module obtains electronics for detecting The current operating conditions of equipment；Determining module, for based on the first corresponding relationship between operating status and power saving grade, to Few two power saving grades determine the first power saving grade corresponding with the current working status, wherein each power saving grade corresponds to institute State the different energy consumptions of electronic equipment；Control module is adjusted for the first parameter to the electronic equipment, described in control Electronic equipment enters the first battery saving mode corresponding with the first power saving grade, wherein is in described in the electronic equipment When the first battery saving mode, the energy consumption of the electronic equipment is the first energy consumption corresponding with the first power saving grade.

In conjunction with second aspect, in the first possible implementation, the detection module is specifically used for: described in determining The current working status of electronic equipment and/or the main program for being currently at operating status for determining the electronic equipment, it is described to work as Preceding working condition and/or the main program are the current operating conditions.

In conjunction with second aspect, in the second possible implementation, the detection module is specifically used for: detection obtains The current time of the electronic equipment, the current time are the current operating conditions.

In conjunction with any one possible reality in the first to two kind of possible implementation of second aspect or first aspect Existing mode, in the third possible implementation, the electronic equipment includes N number of first hardware module, and described at least two Each power saving grade in power saving grade is corresponding at least one hardware module in N number of first hardware module, and N is positive whole Number, the control module are specifically used for: except corresponding with first battery saving mode in control N number of first hardware module Other first hardware modules except at least one first hardware module are in close state, and are entered with controlling the electronic equipment First battery saving mode.

In conjunction with any one possible reality in the first to two kind of possible implementation of second aspect or first aspect Existing mode, in the fourth possible implementation, the electronic equipment include the second hardware module, at least two power saving Each power saving grade in grade corresponds to the different value of the output parameter of second hardware module, the control module, specifically For: controlling the output parameter is the first value corresponding with first battery saving mode, is entered with controlling the electronic equipment First battery saving mode.

In conjunction with any one possible reality in the first to two kind of possible implementation of second aspect or first aspect Existing mode, in a fifth possible implementation, the control module is specifically used for: control in the electronic equipment with institute It states corresponding first application program of the first battery saving mode to be in close state, to control the electronic equipment into first province Power mode.

The present invention has the beneficial effect that:

Due in embodiments of the present invention, detecting the current operating conditions for obtaining electronic equipment first, being then based on operation Corresponding relationship between state and power saving grade determines corresponding with current working status first from least two power saving grades Power saving grade, that is to say, that determine the different power saving grades of electronic equipment in turn for the different operating statuses of electronic equipment, And different power saving grades can correspond to different energy consumptions, that is to say when electronic equipment is in running order, can also pass through The power saving grade different from screen lock state achievees the purpose that save energy consumption, so reached further reduction electronic equipment energy The technical effect of consumption.

Detailed description of the invention

Fig. 1 is the flow chart of information processing method of the embodiment of the present invention；

Fig. 2 is the structure chart of electronic equipment of the embodiment of the present invention.

Specific embodiment

The embodiment of the present invention provides a kind of information processing method and electronic equipment, for solving electronic equipment in the prior art The higher technical problem of energy consumption.

In order to solve the above technical problems, general thought is as follows for technical solution in the embodiment of the present invention:

Detection obtains the current operating conditions of electronic equipment；Based on first between operating status and power saving grade it is corresponding close System determines the first power saving grade corresponding with current working status from least two power saving grades, wherein each power saving grade pair Answer the different energy consumptions of electronic equipment；First parameter of electronic equipment is adjusted, is entered and the first province with controlling electronic devices Corresponding first battery saving mode of electric grade, wherein when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment be with Corresponding first energy consumption of first power saving grade.

Due in the above scheme, determining that the different of electronic equipment save in turn for the different operating statuses of electronic equipment Electric grade, and different power saving grades can correspond to different energy consumptions, that is to say when electronic equipment is in running order, it can also To achieve the purpose that save energy consumption by the power saving grade different from screen lock state, so reached further reduction electronics The technical effect of equipment energy consumption.

In order to better understand the above technical scheme, below by attached drawing and specific embodiment to technical solution of the present invention It is described in detail, it should be understood that the specific features in the embodiment of the present invention and embodiment are to the detailed of technical solution of the present invention Thin explanation, rather than the restriction to technical solution of the present invention, in the absence of conflict, the embodiment of the present invention and embodiment In technical characteristic can be combined with each other.

On the one hand, the embodiment of the present invention provides a kind of information processing method, and method is applied in electronic equipment, electronic equipment Such as are as follows: tablet computer, mobile phone, laptop etc., referring to FIG. 1, information processing method specifically includes the following steps:

Step S101: detection obtains the current operating conditions of electronic equipment；

Step S102: based on the first corresponding relationship between operating status and power saving grade, from least two power saving grades The first power saving grade corresponding with current working status is determined, wherein each power saving grade corresponds to the different energy consumptions of electronic equipment；

Step S103: being adjusted the first parameter of electronic equipment, entered with controlling electronic devices with the first power saving etc. Corresponding first battery saving mode of grade, wherein when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is and first Corresponding first energy consumption of power saving grade.

Wherein, in step S101, current operating conditions can be a variety of operating statuses, and two kinds of progress therein are set forth below It introduces, certainly, in the specific implementation process, is not limited to following two situation.

The first, detection obtains the current operating conditions of electronic equipment, specifically: determine the work at present shape of electronic equipment State and/or the main program for being currently at operating status for determining electronic equipment, current working status and/or main program are as current Operating status.

In this case, the current operating conditions of electronic equipment will be enumerated respectively below again there are three types of possibility.

1. the current working status of electronic equipment specifically: current operating conditions, current working status is for example are as follows: screen locking shape State, non-locking screen state.

2. the current working status of electronic equipment specifically: current electronic device main program in operating status, it is described The application program for the electronic equipment front stage operation that main program refers to.

3. the current operating conditions specifically include: current working status and currently running main program.

Second, detection obtain electronic equipment current operating conditions, specifically: detection obtain electronic equipment it is current when Between, current time is current operating conditions.

Wherein, current run time can correspond to a period, such as: 00:00~8:00,8:00~12:00, 12:00~13:00 etc.；A time point can also be corresponded to, such as: 00:00,8:00 etc., the embodiment of the present invention do not limit System.

Wherein, in step S102, different based on current operating conditions, the first corresponding relationship is also different, will enumerate it below In four kinds be introduced respectively, certainly, in the specific implementation process, be not limited to following four situation.

The first, in the current working status of electronic equipment specifically: when current operating conditions, if electronic equipment itself If battery saving mode, then screen lock state or non-locking screen state can be in by electronic equipment, and then electronics is controlled Equipment enters different power saving grades, such as corresponds to the first corresponding relationship as shown in Table 1:

Table 1

Current operating conditions	Corresponding power saving series	Mobile phone battery saving mode
			Screen locking	1	Very power saving
Non- screen locking	2	More power saving

Due in the above scheme, when electronic equipment is in non-locking screen state, also can control electronic equipment use with The different power saving rank of non-locking screen state achievees the purpose that power saving, so reached when electronic equipment is in non-locking screen state, Also it can reduce the technical effect of energy consumption.

Second, in the current working status of electronic equipment specifically: current electronic device main journey in operating status When sequence, it is not identical to the functional requirement of electronic equipment for different main programs, such as: if main program is short message, phone etc., It is not high to the functional requirement of electronic equipment, so higher power saving grade can be set to；And if main program For online, microblogging etc., then it is somewhat higher to the functional requirement of electronic equipment, so it is set to the battery saving mode of lower level Etc., so can either power saving, and can guarantee that corresponding application program works normally, and then can determine as shown in table 2 The first corresponding relationship:

Table 2

Main program	Corresponding power saving series	Mobile phone battery saving mode
			Short message, phone etc.	2	More power saving
Online, microblogging etc.	3	Normal power saving

Since in the above scheme, for the difference for the main program that electronic equipment is run, controlling electronic devices is in not Same power saving rank can guarantee the application program of electronic equipment so having reached when electronic equipment is in running order It can work normally, while the technical effect of energy consumption can be saved again.

The third, specifically includes in current operating conditions: when current working status and currently running main program, first pair It should be related to corresponding relationship i.e. including current working status and power saving grade, and including currently running main program and power saving grade Corresponding relationship, such as: when the electronic equipment is screen lock state, main program is not run, so it corresponds to the 1st grade Power saving grade, namely most power saving；And when having run the application programs such as short message, phone on an electronic device, then it corresponds to the 2nd grade of province Electricity, that is, more power saving；And when having run the application programs such as online, microblogging on an electronic device, then it corresponds to 3rd level and saves Electricity, namely normal power saving etc., and then can determine the first corresponding relationship as shown in table 3:

Table 3

Current operating conditions	Corresponding power saving series	Mobile phone battery saving mode
			Screen locking	1	Very power saving
Short message, phone etc.	2	More power saving
			Online, microblogging etc.	3	Normal power saving

Due in the above scheme, by the combination of the current operating conditions and currently running main program of electronic equipment come Determine the first corresponding relationship, so to the more accurate of the power saving partition of the level of electronic equipment, and then reached to power-saving control More accurate technical effect.

4th kind, in current working status specifically: when current time, it is generally the case that when current time difference, user It is different to the use demand of electronic equipment, such as: when current time is 00:00~8:00, user simultaneously less uses electronics Equipment, so electronic equipment corresponds to the 1st grade of power saving；And when current time is 8:00~12:00, user may be in working process In, so only need to send short message by electronic equipment or make a phone call, so electronic equipment corresponds to the 2nd grade of power saving；And working as It is the time of having a rest when the preceding time is 12:00~13:00, user may need that microblogging is surfed the Internet or played by electronic equipment, so it is electric Sub- equipment corresponds to 3rd level power saving etc., and then can determine the first corresponding relationship as shown in table 4:

Table 4

Current time	Corresponding power saving series	Mobile phone battery saving mode
			00:00~8:00	1	Very power saving
8:00~12:00	2	More power saving
			12:00~13:00	3	Normal power saving

Due to that in the above scheme, the power saving rank of electronic equipment can be determined by the current time of electronic equipment, And current time is directly assured that by the clock of electronic equipment, so reached the power saving rank of determining electronic equipment more Add convenient technical effect.

In the specific implementation process, in step S103, controlling electronic devices it can enter the first power saving in several ways Mode is set forth below three kinds therein and is introduced, and certainly, in the specific implementation process, following three kinds of situations is not limited to, into one Step, three kinds of situations can be applied in combination below.

The first, electronic equipment includes N number of first hardware module, each power saving grade at least two power saving grades with At least one hardware module in N number of first hardware module is corresponding, and N is positive integer, is adjusted to the first parameter of electronic equipment It is whole, the first battery saving mode corresponding with the first power saving grade is entered with controlling electronic devices, specifically:

It controls in N number of first hardware module in addition at least one first hardware module corresponding with the first battery saving mode Other first hardware modules are in close state, and enter the first battery saving mode with controlling electronic devices.

In the specific implementation process, N number of first hardware module, such as: camera, GPS positioning instrument, Wifi module, bluetooth Module, sensor etc., these hardware modules can consume under normal conditions it is larger, and when electronic equipment is in battery saving mode, If corresponding battery saving mode takes less than these hardware modes, it can control these hardware modules and be in close state, And then enter corresponding power saving rank.

Such as: when electronic equipment is in the first power saving rank, it can control this N number of first hardware module and be completely in pass Closed state；And when electronic equipment is in the second power saving rank, it can control camera, GPS positioning instrument, Wifi module, bluetooth Module is in close state；And when electronic equipment is in third power saving rank, then it can control camera, at GPS positioning instrument In closed state etc., different battery saving modes and which kind of hardware module are in close state, the embodiment of the present invention is not made Limitation.

As seen from the above description, at least one hardware in N number of first hardware module of closing electronic equipment can be passed through The mode of module carrys out controlling electronic devices and enters different battery saving modes, so having reached prevents unrelated hardware module power consumption Technical effect.

Second, electronic equipment includes the second hardware module, and each power saving grade at least two power saving grades is corresponding The different value of the output parameter of second hardware module is adjusted the first parameter of electronic equipment, with controlling electronic devices into Enter the first battery saving mode corresponding with the first power saving grade, specifically:

Control output parameter is the first value corresponding with the first battery saving mode, enters the first power saving mould with controlling electronic devices Formula.

In the specific implementation process, second hardware module is for example are as follows: CPU, wherein CPU can correspond to different dominant frequency And processing speed, so power saving grade that can be different based on electronic equipment, determines CPU different dominant frequency and processing speed, example Such as: the dominant frequency of the CPU of the electronic equipment is 1000MHZ, and four cores, and when electronic equipment be in the 1st grade of power saving grade control CPU frequency is 500MHZ, monokaryon；When electronic equipment is in the 2nd grade of power saving grade, control CPU frequency is 500MHZ, double-core； When electronic equipment is in 3rd level power saving grade, control CPU frequency is 100MHZ, double-core etc., and then reach the mesh of power saving 's.

As seen from the above description, since in embodiments of the present invention, the second hardware mould of controlling electronic devices can be passed through The mode of the output parameter of block carrys out controlling electronic devices into corresponding battery saving mode, is guaranteeing the second hardware mould so having reached Block can support electronic equipment to reduce the technical effect of energy consumption while the first battery saving mode works normally.

The third, is adjusted the first parameter of electronic equipment, is entered and the first power saving grade with controlling electronic devices Corresponding first battery saving mode, specifically:

The first application program corresponding with the first battery saving mode is in close state in controlling electronic devices, to control electronics Equipment enters the first battery saving mode.

It in the specific implementation process, include a variety of application programs on electronic equipment, wherein being in the 1st grade of province in electronic equipment When electric rank, it can control all application programs and be in close state；And when electronic equipment is in the 2nd grade of battery saving mode, it can It is in close state with controlling the other application program except short message, phone；And 3rd level battery saving mode is in electronic equipment When, it can control the other application program except short message, short words, microblogging, online and be in close state etc., and then reach power saving Purpose.

As seen from the above description, corresponding with the first battery saving mode by closing due to using in embodiments of the present invention The mode of first application program reaches the technical solution that controlling electronic devices enters the first battery saving mode, so having reached prevents The technical effect of first application program energy consumption.

On the other hand, the embodiment of the present invention provides a kind of electronic equipment, referring to FIG. 2, electronic equipment specifically includes:

Detection module 20, for detecting the current operating conditions for obtaining electronic equipment；

Determining module 21, for based on the first corresponding relationship between operating status and power saving grade, from least two provinces Electric grade determines the first power saving grade corresponding with current working status, wherein each power saving grade corresponds to the difference of electronic equipment Energy consumption；

Control module 22 is adjusted for the first parameter to electronic equipment, is entered and first with controlling electronic devices Corresponding first battery saving mode of power saving grade, wherein when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is The first energy consumption corresponding with the first power saving grade.

Optionally, detection module 20 are specifically used for:

It determines the current working status of electronic equipment and/or determines the main journey for being currently at operating status of electronic equipment Sequence, current working status and/or main program are current operating conditions.

Optionally, detection module 20 are specifically used for:

Detection obtains the current time of electronic equipment, and current time is current operating conditions.

Optionally, electronic equipment includes N number of first hardware module, each power saving grade at least two power saving grades with At least one hardware module in N number of first hardware module is corresponding, and N is positive integer, and control module 22 is specifically used for:

It controls in N number of first hardware module in addition at least one first hardware module corresponding with the first battery saving mode Other first hardware modules are in close state, and enter the first battery saving mode with controlling electronic devices.

Optionally, electronic equipment includes the second hardware module, and each power saving grade at least two power saving grades is corresponding The different value of the output parameter of second hardware module, control module 22, is specifically used for:

Control output parameter is the first value corresponding with the first battery saving mode, enters the first power saving mould with controlling electronic devices Formula.

Optionally, control module 22 are specifically used for:

The first application program corresponding with the first battery saving mode is in close state in controlling electronic devices, to control electronics Equipment enters the first battery saving mode.

The information processing method phase introduced by the electronic equipment that the embodiment of the present invention is introduced with the embodiment of the present invention Corresponding, based on the information processing method that the embodiment of the present invention is introduced, those skilled in the art can understand of the invention real The basic structure and deformation of the electronic equipment that example is introduced are applied, so be no longer discussed in detail herein.

One or more technical solution provided by the present application, has at least the following technical effects or advantages:

Due in embodiments of the present invention, detecting the current operating conditions for obtaining electronic equipment first, being then based on operation Corresponding relationship between state and power saving grade determines corresponding with current working status first from least two power saving grades Power saving grade, that is to say, that determine the different power saving grades of electronic equipment in turn for the different operating statuses of electronic equipment, And different power saving grades can correspond to different energy consumptions, that is to say when electronic equipment is in running order, can also pass through The power saving grade different from screen lock state achievees the purpose that save energy consumption, so reached further reduction electronic equipment energy The technical effect of consumption.

It should be understood by those skilled in the art that, the embodiment of the present invention can provide 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, it wherein includes the computer of computer usable program code that the present invention, which can be used in one or more, The computer program implemented in usable storage medium (including but not limited to magnetic disk storage, CD-ROM, optical memory etc.) produces The form of product.

The present invention be referring to according to the method for the embodiment of the present invention, the process of equipment (system) and computer program product Figure and/or block diagram describe.It should be understood that every one stream in flowchart and/or the block diagram can be realized by computer program instructions The combination of process and/or box in journey and/or box and flowchart and/or the block diagram.It can provide these computer programs Instruct the processor of general purpose computer, special purpose computer, Embedded Processor or other programmable data processing devices to produce A raw machine, so that being generated by the instruction that computer or the processor of other programmable data processing devices execute for real The device for the function of being specified in present one or more flows of the flowchart and/or one or more blocks of the block diagram.

These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates, Enable the manufacture of device, the command device realize in one box of one or more flows of the flowchart and/or 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 counting Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or The instruction executed on other programmable devices is provided for realizing in one or more flows of the flowchart and/or block diagram one The step of function of being specified in a box or multiple boxes.

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, those skilled in the art can carry out various modification and variations without departing from this hair to the embodiment of the present invention The spirit and scope of bright embodiment.In this way, if these modifications and variations of the embodiment of the present invention belong to the claims in the present invention And its within the scope of equivalent technologies, then the present invention is also intended to include these modifications and variations.

Claims (6)

1. a kind of information processing method is applied to electronic equipment, which comprises

Detection obtain electronic equipment current operating conditions, specifically: determine the electronic equipment current working status and really The main program for being currently at operating status of the fixed electronic equipment, the current working status and the main program are described Current operating conditions；

It is determining and described current from least two power saving grades based on the first corresponding relationship between operating status and power saving grade The corresponding first power saving grade of working condition, wherein each power saving grade corresponds to the different energy consumptions of the electronic equipment；

First parameter of the electronic equipment is adjusted, is entered and the first power saving grade with controlling the electronic equipment Corresponding first battery saving mode, wherein when the electronic equipment is in first battery saving mode, the energy of the electronic equipment Consumption is the first energy consumption corresponding with the first power saving grade,

The electronic equipment includes N number of first hardware module, each power saving grade and institute in at least two power savings grade At least one hardware module stated in N number of first hardware module is corresponding, and N is positive integer, described to the first of the electronic equipment Parameter is adjusted, to control the electronic equipment into the first battery saving mode corresponding with the first power saving grade, specifically Are as follows:

Control in N number of first hardware module except at least one first hardware module corresponding with first battery saving mode it Outer other first hardware modules are in close state, to control the electronic equipment into first battery saving mode.

2. the method as described in claim 1, which is characterized in that the electronic equipment include the second hardware module, it is described at least Each power saving grade in two power saving grades corresponds to the different value of the output parameter of second hardware module, described to described First parameter of electronic equipment is adjusted, and is entered and the first power saving grade corresponding first with controlling the electronic equipment Battery saving mode, specifically:

Controlling the output parameter is the first value corresponding with first battery saving mode, enters institute to control the electronic equipment State the first battery saving mode.

3. the method as described in claim 1, which is characterized in that first parameter to the electronic equipment is adjusted, Enter the first battery saving mode corresponding with the first power saving grade to control the electronic equipment, specifically:

It controls the first application program corresponding with first battery saving mode in the electronic equipment to be in close state, with control The electronic equipment enters first battery saving mode.

4. a kind of electronic equipment, comprising:

Detection module is specifically used for for detecting the current operating conditions for obtaining electronic equipment: determining working as the electronic equipment Preceding working condition and the main program for being currently at operating status for determining the electronic equipment, the current working status and described Main program is the current operating conditions；

Determining module, for based on the first corresponding relationship between operating status and power saving grade, from least two power saving grades The first power saving grade corresponding with the current working status is determined, wherein each power saving grade corresponds to the electronic equipment not Same energy consumption；

Control module is adjusted for the first parameter to the electronic equipment, is entered and institute with controlling the electronic equipment State corresponding first battery saving mode of the first power saving grade, wherein when the electronic equipment is in first battery saving mode, institute The energy consumption for stating electronic equipment is the first energy consumption corresponding with the first power saving grade,

The electronic equipment includes N number of first hardware module, each power saving grade and institute in at least two power savings grade At least one hardware module stated in N number of first hardware module is corresponding, and N is positive integer, and the control module is specifically used for:

Control in N number of first hardware module except at least one first hardware module corresponding with first battery saving mode it Outer other first hardware modules are in close state, to control the electronic equipment into first battery saving mode.

5. electronic equipment as claimed in claim 4, which is characterized in that the electronic equipment includes the second hardware module, described Each power saving grade at least two power saving grades corresponds to the different value of the output parameter of second hardware module, the control Molding block, is specifically used for:

Controlling the output parameter is the first value corresponding with first battery saving mode, enters institute to control the electronic equipment State the first battery saving mode.

6. electronic equipment as claimed in claim 4, which is characterized in that the control module is specifically used for:

It controls the first application program corresponding with first battery saving mode in the electronic equipment to be in close state, with control The electronic equipment enters first battery saving mode.