CN104615415A - Information processing method and electronic equipment - Google Patents

Abstract

The invention relates to the field of information technology, and discloses an information processing method and electronic equipment so as to solve the technical problem of high energy consumption of the electronic equipment in the prior art. The information processing method is applied to the electronic equipment. The method comprises the following steps: detecting to obtain the current operation state of the electronic equipment; on the basis of a first corresponding relationship between the operation state and power saving levels, determining a first power saving level corresponding to a current working state from at least two power saving levels, wherein each power saving level corresponds to different power consumptions of the electronic equipment; and regulating a first parameter of the electronic equipment to control the electronic equipment to enter a first power saving mode corresponding to the first power saving level, wherein when the electronic equipment is under the first power saving mode, and the energy consumption of the electronic equipment is first energy consumption corresponding to the first power saving level.

Description

A kind of information processing method and electronic equipment

Technical field

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

Background technology

Along with the fast development of electronic technology, the function of various electronic equipment is also more and more abundanter, more and more hommization, makes user have better Experience Degree in the process using electronic equipment.With regard to adept machine, present smart mobile phone, can say and be modified into a small-sized computer, not only have powerful storage space, can install various software, and various cell-phone function also does and human nature more and more meticulousr.

In prior art, in order to save the energy consumption of smart mobile phone, under normal circumstances, if smart mobile phone not receiving user operation within a period of time, will screen lock state be carried out, and then reach the object of power saving,

Present inventor finds at least there is following technical matters in prior art:

Due in the prior art, can only pass through to control electronic equipment screen locking, and then the power consumption of the display screen of reduction electronic equipment reaches the object of power saving, so when electronic equipment is in running order, still there is the technical matters that electronic device energy consumption is higher.

Summary of the invention

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

According to a first aspect of the invention, provide a kind of information processing method, be applied to electronic equipment, described method comprises: detect the current operating conditions obtaining electronic equipment; Based on the first corresponding relation between running status and power saving grade, determine the first power saving grade corresponding with described current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding described electronic equipment of each power saving grade; First parameter of described electronic equipment is adjusted, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, wherein, when described electronic equipment is in described first battery saving mode, the energy consumption of described electronic equipment is first energy consumption corresponding with described first power saving grade.

In conjunction with first aspect, in the implementation that the first is possible, the described current operating conditions detecting acquisition electronic equipment, be specially: determine the current operating state of described electronic equipment and/or determine the current master routine being in running status of described electronic equipment, described current operating state and/or described master routine are described current operating conditions.

In conjunction with first aspect, in the implementation that the second is possible, the described current operating conditions detecting acquisition electronic equipment, is specially: detect the current time obtaining described electronic equipment, described current time is described current operating conditions.

In conjunction with any one the possible implementation in the first to two kind of first aspect or first aspect possible implementation, in the implementation that the third is possible, described electronic equipment comprises N number of first hardware module, each power saving grade in described at least two power saving grades is corresponding with at least one hardware module in described N number of first hardware module, N is positive integer, described the first parameter to described electronic equipment adjusts, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, be specially: other first hardware module controlled in described N number of first hardware module except at least one first hardware module corresponding with described first battery saving mode is in closed condition, described first battery saving mode is entered to control described electronic equipment.

In conjunction with any one the possible implementation in the first to two kind of first aspect or first aspect possible implementation, in the 4th kind of possible implementation, described electronic equipment comprises the second hardware module, the different value of the output parameter of corresponding described second hardware module of each power saving grade in described at least two power saving grades, described the first parameter to described electronic equipment adjusts, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, be specially: controlling described output parameter is first value corresponding with described first battery saving mode, described first battery saving mode is entered to control described electronic equipment.

In conjunction with any one the possible implementation in the first to two kind of first aspect or first aspect possible implementation, in the 5th kind of possible implementation, described the first parameter to described electronic equipment adjusts, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, be specially: control the first application program corresponding with described first battery saving mode in described electronic equipment and be in closed condition, enter described first battery saving mode to control described electronic equipment.

According to a second aspect of the invention, a kind of electronic equipment is provided, comprises: detection module, for detecting the current operating conditions obtaining electronic equipment; Determination module, for based on the first corresponding relation between running status and power saving grade, determines the first power saving grade corresponding with described current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding described electronic equipment of each power saving grade; Control module, for adjusting the first parameter of described electronic equipment, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, wherein, when described electronic equipment is in described first battery saving mode, the energy consumption of described electronic equipment is first energy consumption corresponding with described first power saving grade.

In conjunction with second aspect, in the implementation that the first is possible, described detection module, specifically for: determine the current operating state of described electronic equipment and/or determine the current master routine being in running status of described electronic equipment, described current operating state and/or described master routine are described current operating conditions.

In conjunction with second aspect, in the implementation that the second is possible, described detection module, specifically for: detect the current time obtaining described electronic equipment, described current time is described current operating conditions.

In conjunction with any one the possible implementation in the first to two kind of second aspect or first aspect possible implementation, in the implementation that the third is possible, described electronic equipment comprises N number of first hardware module, each power saving grade in described at least two power saving grades is corresponding with at least one hardware module in described N number of first hardware module, N is positive integer, described control module, specifically for: other first hardware module controlled in described N number of first hardware module except at least one first hardware module corresponding with described first battery saving mode is in closed condition, described first battery saving mode is entered to control described electronic equipment.

In conjunction with any one the possible implementation in the first to two kind of second aspect or first aspect possible implementation, in the 4th kind of possible implementation, described electronic equipment comprises the second hardware module, the different value of the output parameter of corresponding described second hardware module of each power saving grade in described at least two power saving grades, described control module, specifically for: controlling described output parameter is first value corresponding with described first battery saving mode, enters described first battery saving mode to control described electronic equipment.

In conjunction with any one the possible implementation in the first to two kind of second aspect or first aspect possible implementation, in the 5th kind of possible implementation, described control module, specifically for: control the first application program corresponding with described first battery saving mode in described electronic equipment and be in closed condition, enter described first battery saving mode to control described electronic equipment.

Beneficial effect of the present invention is as follows:

Due in embodiments of the present invention, first the current operating conditions obtaining electronic equipment is detected, then based on the corresponding relation between running status and power saving grade, the first power saving grade corresponding with current operating state is determined from least two power saving grades, that is for electronic equipment different running status so that determine the different power saving grades of electronic equipment, and different power saving grades can corresponding different energy consumption, that is to say when electronic equipment is in running order, also the object of saving energy consumption can be reached by the power saving grade different from screen lock state, so reach the technique effect further reducing electronic device energy consumption.

Accompanying drawing explanation

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

Fig. 2 is the structural drawing of embodiment of the present invention electronic equipment.

Embodiment

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

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

Detect the current operating conditions obtaining electronic equipment; Based on the first corresponding relation between running status and power saving grade, determine the first power saving grade corresponding with current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding electronic equipment of each power saving grade; First parameter of electronic equipment is adjusted, first battery saving mode corresponding with the first power saving grade is entered to control electronic equipment, wherein, when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is first energy consumption corresponding with the first power saving grade.

Due in such scheme, for electronic equipment different running status so that determine the different power saving grades of electronic equipment, and different power saving grades can corresponding different energy consumption, that is to say when electronic equipment is in running order, also the object of saving energy consumption can be reached by the power saving grade different from screen lock state, so reach the technique effect further reducing electronic device energy consumption.

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

On the one hand, the embodiment of the present invention provides a kind of information processing method, and method is applied in electronic equipment, and electronic equipment is such as: panel computer, mobile phone, notebook computer etc., please refer to Fig. 1, and information processing method specifically comprises the following steps:

Step S101: detect the current operating conditions obtaining electronic equipment;

Step S102: based on the first corresponding relation between running status and power saving grade, determines the first power saving grade corresponding with current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding electronic equipment of each power saving grade;

Step S103: the first parameter of electronic equipment is adjusted, first battery saving mode corresponding with the first power saving grade is entered to control electronic equipment, wherein, when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is first energy consumption corresponding with the first power saving grade.

Wherein, in step S101, current operating conditions can be multiple running status, and two kinds of enumerating below are wherein introduced, and certainly, in specific implementation process, is not limited to following two kinds of situations.

The first, detect the current operating conditions obtaining electronic equipment, be specially: determine the current operating state of electronic equipment and/or determine the current master routine being in running status of electronic equipment, current operating state and/or master routine are current operating conditions.

In this case, the current operating conditions of electronic equipment has again three kinds of possibilities, will enumerate respectively below.

1. the current operating state of electronic equipment is specially: current operating conditions, and current operating state is such as: screen lock state, non-screen lock state.

2. the current operating state of electronic equipment is specially: current electronic device is in the master routine of running status, the application program of the electronic equipment front stage operation that described master routine refers to.

3. described current operating conditions specifically comprises: the master routine of current operating state and current operation.

The second, detects the current operating conditions obtaining electronic equipment, is specially: detect the current time obtaining electronic equipment, current time is current operating conditions.

Wherein, current run time namely can a corresponding time period, such as: 00:00 ~ 8:00,8:00 ~ 12:00,12:00 ~ 13:00 etc.; Also can a corresponding time point, such as: 00:00,8:00 etc., the embodiment of the present invention is not restricted.

Wherein, in step S102, different based on current operating conditions, the first corresponding relation is also different, is introduced respectively below by four kinds that enumerate wherein, certainly, in specific implementation process, is not limited to following four kinds of situations.

The first, be specially at the current operating state of electronic equipment: during current operating conditions, if electronic equipment itself is in battery saving mode, so can be in screen lock state by electronic equipment is also non-screen lock state, such as, and then control electronic equipment enters different power saving grades, corresponding first corresponding relation as shown in table 1:

Table 1

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

Due in such scheme, when electronic equipment is in non-screen lock state, also can control electronic equipment adopts the power saving rank different from non-screen lock state to reach the object of power saving, so reach when electronic equipment is in non-screen lock state, also can reduce the technique effect of energy consumption.

The second, be specially at the current operating state of electronic equipment: when current electronic device is in the master routine of running status, it is not identical to the functional requirement of electronic equipment for different master routines, such as: if master routine is note, phone etc., it is not high to the functional requirement of electronic equipment, so can be set to higher power saving grade; And if master routine is online, microblogging etc., then it is higher to the functional requirement of electronic equipment, so be set to more rudimentary battery saving mode etc., and then can either power saving, can ensure that again corresponding application program normally works, and then the first corresponding relation as shown in table 2 can be determined:

Table 2

Master routine	Corresponding power saving progression	Mobile phone battery saving mode
			Note, phone etc.	2	Comparatively power saving
Online, microblogging etc.	3	Normal power saving

Due in such scheme, for the difference of the master routine that electronic equipment runs, control electronic equipment and be in different power saving ranks, so reach when electronic equipment is in running order, namely can ensure that the application program of electronic equipment can normally work, the technique effect of energy consumption can be saved again simultaneously.

The third, specifically comprise at current operating conditions: during the master routine of current operating state and current operation, namely first corresponding relation comprises the corresponding relation of current operating state and power saving grade, comprise again the master routine of current operation and the corresponding relation of power saving grade, such as: when described electronic equipment is screen lock state, it does not run master routine, so its power saving grade of corresponding 1st grade, and also i.e. most power saving; And when having run the application program such as note, phone on an electronic device, then its corresponding 2nd grade of power saving, namely comparatively power saving; And when having run the application program such as online, microblogging on an electronic device, then its corresponding 3rd level power saving, also i.e. normal power saving etc., and then the first corresponding relation as shown in table 3 can be determined:

Table 3

Current operating conditions	Corresponding power saving progression	Mobile phone battery saving mode
			Screen locking	1	Very power saving
Note, phone etc.	2	Comparatively power saving
			Online, microblogging etc.	3	Normal power saving

Due in such scheme, the first corresponding relation is determined by the combination of the current operating conditions of electronic equipment and the master routine of current operation, so more accurate to the power saving partition of the level of electronic equipment, and then reach the more accurate technique effect of power-saving control.

4th kind, be specially at current operating state: during current time, under normal circumstances, when current time is different, user is different to the user demand of electronic equipment, such as: when current time is 00:00 ~ 8:00, user also less uses electronic equipment, so the corresponding 1st grade of power saving of electronic equipment; And when current time is 8:00 ~ 12:00, user may be on duty in process, so only need send note by electronic equipment or call, so the corresponding 2nd grade of power saving of electronic equipment; And when current time is 12:00 ~ 13:00, be the time of having a rest, user may need to be surfed the Net by electronic equipment or play microblogging, so corresponding 3rd level power saving of electronic equipment etc., and then can determine the first corresponding relation as shown in table 4:

Table 4

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

Due in such scheme, the power saving rank of electronic equipment can be determined by the current time of electronic equipment, and directly just can determine current time by the clock of electronic equipment, so reach the technique effect determining that the power saving rank of electronic equipment is convenient.

In specific implementation process, in step S103, electronic equipment can be controlled in several ways and enter the first battery saving mode, three kinds of enumerating below are wherein introduced, certainly, in specific implementation process, be not limited to following three kinds of situations, further, three kinds of situations can combinationally use below.

The first, electronic equipment comprises N number of first hardware module, each power saving grade at least two power saving grades is corresponding with at least one hardware module in N number of first hardware module, N is positive integer, first parameter of electronic equipment is adjusted, enter first battery saving mode corresponding with the first power saving grade to control electronic equipment, be specially:

Other first hardware module controlled in N number of first hardware module except at least one first hardware module corresponding with the first battery saving mode is in closed condition, enters the first battery saving mode to control electronic equipment.

In specific implementation process, N number of first hardware module, such as: camera, GPS orientator, Wifi module, bluetooth module, sensor etc., these hardware modules can consume larger under normal circumstances, and when electronic equipment is in battery saving mode, if the battery saving mode of correspondence with less than these hardware mode, then can control these hardware modules and be in closed condition, and then enter corresponding power saving rank.

Such as: when electronic equipment is in the first power saving rank, this N number of first hardware module can be controlled and be all in closed condition; And when electronic equipment is in the second power saving rank, camera can be controlled, GPS orientator, Wifi module, bluetooth module be in closed condition; And when electronic equipment is in the 3rd power saving rank, then can control camera, GPS orientator is in closed condition etc., is in closed condition for different battery saving modes and which kind of hardware module, the embodiment of the present invention is not restricted.

As seen from the above description, electronic equipment can be controlled by the mode of closing at least one hardware module in N number of first hardware module of electronic equipment and enter different battery saving modes, so reach the technique effect of the hardware module power consumption preventing from haveing nothing to do.

The second, electronic equipment comprises the second hardware module, the different value of the output parameter of corresponding second hardware module of each power saving grade at least two power saving grades, first parameter of electronic equipment is adjusted, enter first battery saving mode corresponding with the first power saving grade to control electronic equipment, be specially:

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

In specific implementation process, described second hardware module is such as: CPU, wherein CPU can corresponding different dominant frequency and processing speed, such as, so based on the different power saving grade of electronic equipment, the dominant frequency that CPU is different and processing speed can be determined: the dominant frequency of the CPU of described electronic equipment is 1000MHZ, four cores, and when electronic equipment is 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 the object reaching power saving.

As seen from the above description, due in embodiments of the present invention, electronic equipment can be controlled by the mode of the output parameter controlling the second hardware module of electronic equipment and enter corresponding battery saving mode, can support that electronic equipment reduces the technique effect of energy consumption while the first battery saving mode normally works so reach in guarantee second hardware module.

The third, adjust the first parameter of electronic equipment, enters first battery saving mode corresponding with the first power saving grade, be specially to control electronic equipment:

Control first application program corresponding with the first battery saving mode in electronic equipment and be in closed condition, enter the first battery saving mode to control electronic equipment.

In specific implementation process, electronic equipment comprises multiple application program, wherein when electronic equipment is in the 1st grade of power saving rank, all application programs can be controlled and be in closed condition; And when electronic equipment is in the 2nd grade of battery saving mode, other application program that can control outside note, phone is in closed condition; And when electronic equipment is in 3rd level battery saving mode, other application program that can control outside note, short words, microblogging, online is in closed condition etc., and then reach the object of power saving.

As seen from the above description, the technical scheme that electronic equipment enters the first battery saving mode is controlled, so reach the technique effect preventing the first application program power consumption because the mode that have employed in embodiments of the present invention by closing the first application program corresponding with the first battery saving mode reaches.

On the other hand, the embodiment of the present invention provides a kind of electronic equipment, please refer to Fig. 2, and electronic equipment specifically comprises:

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

Determination module 21, for based on the first corresponding relation between running status and power saving grade, determines the first power saving grade corresponding with current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding electronic equipment of each power saving grade;

Control module 22, for adjusting the first parameter of electronic equipment, enter first battery saving mode corresponding with the first power saving grade to control electronic equipment, wherein, when electronic equipment is in the first battery saving mode, the energy consumption of electronic equipment is first energy consumption corresponding with the first power saving grade.

Optionally, detection module 20, specifically for:

Determine the current operating state of electronic equipment and/or determine the current master routine being in running status of electronic equipment, current operating state and/or master routine are current operating conditions.

Optionally, detection module 20, specifically for:

Detect the current time obtaining electronic equipment, current time is current operating conditions.

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

Other first hardware module controlled in N number of first hardware module except at least one first hardware module corresponding with the first battery saving mode is in closed condition, enters the first battery saving mode to control electronic equipment.

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

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

Optionally, control module 22, specifically for:

Control first application program corresponding with the first battery saving mode in electronic equipment and be in closed condition, enter the first battery saving mode to control electronic equipment.

The electronic equipment introduced due to the embodiment of the present invention is corresponding with the information processing method that the embodiment of the present invention is introduced, based on the information processing method that the embodiment of the present invention is introduced, those skilled in the art can understand basic structure and the distortion of the electronic equipment that the embodiment of the present invention is introduced, so introduce no longer in detail at this.

One or more technical schemes that the application provides, at least have following technique effect or advantage:

Due in embodiments of the present invention, first the current operating conditions obtaining electronic equipment is detected, then based on the corresponding relation between running status and power saving grade, the first power saving grade corresponding with current operating state is determined from least two power saving grades, that is for electronic equipment different running status so that determine the different power saving grades of electronic equipment, and different power saving grades can corresponding different energy consumption, that is to say when electronic equipment is in running order, also the object of saving energy consumption can be reached by the power saving grade different from screen lock state, so reach the technique effect further reducing electronic device energy consumption.

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

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

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

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

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

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

Claims (12)

1. an information processing method, is applied to electronic equipment, and described method comprises:

Detect the current operating conditions obtaining electronic equipment;

Based on the first corresponding relation between running status and power saving grade, determine the first power saving grade corresponding with described current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding described electronic equipment of each power saving grade;

First parameter of described electronic equipment is adjusted, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, wherein, when described electronic equipment is in described first battery saving mode, the energy consumption of described electronic equipment is first energy consumption corresponding with described first power saving grade.

2. the method for claim 1, is characterized in that, the described current operating conditions detecting acquisition electronic equipment, is specially:

Determine the current operating state of described electronic equipment and/or determine the current master routine being in running status of described electronic equipment, described current operating state and/or described master routine are described current operating conditions.

3. the method for claim 1, is characterized in that, the described current operating conditions detecting acquisition electronic equipment, is specially:

Detect the current time obtaining described electronic equipment, described current time is described current operating conditions.

4. the method as described in claim as arbitrary in claim 1-3, it is characterized in that, described electronic equipment comprises N number of first hardware module, each power saving grade in described at least two power saving grades is corresponding with at least one hardware module in described N number of first hardware module, N is positive integer, described the first parameter to described electronic equipment adjusts, and enters first battery saving mode corresponding with described first power saving grade, be specially to control described electronic equipment:

Other first hardware module controlled in described N number of first hardware module except at least one first hardware module corresponding with described first battery saving mode is in closed condition, enters described first battery saving mode to control described electronic equipment.

5. the method as described in claim as arbitrary in claim 1-3, it is characterized in that, described electronic equipment comprises the second hardware module, the different value of the output parameter of corresponding described second hardware module of each power saving grade in described at least two power saving grades, described the first parameter to described electronic equipment adjusts, enter first battery saving mode corresponding with described first power saving grade to control described electronic equipment, be specially:

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

6. the method as described in claim as arbitrary in claim 1-3, is characterized in that, described the first parameter to described electronic equipment adjusts, and enters first battery saving mode corresponding with described first power saving grade, be specially to control described electronic equipment:

Control the first application program corresponding with described first battery saving mode in described electronic equipment and be in closed condition, enter described first battery saving mode to control described electronic equipment.

7. an electronic equipment, comprising:

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

Determination module, for based on the first corresponding relation between running status and power saving grade, determines the first power saving grade corresponding with described current operating state from least two power saving grades, wherein the different energy consumptions of the corresponding described electronic equipment of each power saving grade;

Control module, for adjusting the first parameter of described electronic equipment, first battery saving mode corresponding with described first power saving grade is entered to control described electronic equipment, wherein, when described electronic equipment is in described first battery saving mode, the energy consumption of described electronic equipment is first energy consumption corresponding with described first power saving grade.

8. electronic equipment as claimed in claim 7, is characterized in that, described detection module, specifically for:

Determine the current operating state of described electronic equipment and/or determine the current master routine being in running status of described electronic equipment, described current operating state and/or described master routine are described current operating conditions.

9. electronic equipment as claimed in claim 7, is characterized in that, described detection module, specifically for:

Detect the current time obtaining described electronic equipment, described current time is described current operating conditions.

10. the electronic equipment as described in claim as arbitrary in claim 7-9, it is characterized in that, described electronic equipment comprises N number of first hardware module, each power saving grade in described at least two power saving grades is corresponding with at least one hardware module in described N number of first hardware module, N is positive integer, described control module, specifically for:

Other first hardware module controlled in described N number of first hardware module except at least one first hardware module corresponding with described first battery saving mode is in closed condition, enters described first battery saving mode to control described electronic equipment.

11. want the electronic equipment as described in the arbitrary claim of 7-9 as right, it is characterized in that, described electronic equipment comprises the second hardware module, the different value of the output parameter of corresponding described second hardware module of each power saving grade in described at least two power saving grades, described control module, specifically for:

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

Electronic equipment as described in 12. claims as arbitrary in claim 7-9, is characterized in that, described control module, specifically for:

Control the first application program corresponding with described first battery saving mode in described electronic equipment and be in closed condition, enter described first battery saving mode to control described electronic equipment.