CN104503563A - Electricity saving method and device of electronic equipment - Google Patents

Abstract

The invention provides an electricity saving method and device of electronic equipment. The electricity saving method comprises the following steps: monitoring a current state parameter of the electronic equipment when an electricity saving instruction is received; determining to-be-executed electricity saving operation corresponding to the current state parameter according to the monitored current state parameter; further executing the determined electricity saving operation so as to realize the electricity saving purpose of the electronic equipment. Compared with the prior art, the method and the device have the advantages that corresponding electricity saving operation is determined according to the state parameter of the electronic equipment rather than that a monitored power consumption module is simply turned off, so that the electricity saving operation is more purposeful.

Description

A kind of power-saving method of electronic equipment and device

Technical field

The application relates to electric quantity for electronic equipment control technology field, especially a kind of power-saving method of electronic equipment and device.

Background technology

For electronic equipment especially mobile terminal, equipment electricity is more is the essential condition maintaining its normal operation.Electronic equipment opens multiple power consumption module usually, thus expends extra electricity, when equipment electricity is lower, the basic function of electronic equipment then cannot complete.In order to extend the service time of electric quantity for electronic equipment, need to carry out power save function to electronic equipment.

At present, the power-saving method of electronic equipment is closed at the power consumption module of opening, and battery saving mode is not pointed.

Summary of the invention

In view of this, the invention provides a kind of power-saving method and device of electronic equipment, to solve the technical matters of battery saving mode underaction of the prior art.For realizing described object, technical scheme provided by the invention is as follows:

A power-saving method for electronic equipment, comprising:

When receiving power-saving command, the current state parameter of monitoring electronic equipment;

According to described current state parameter, determine corresponding current power save function;

Perform the described current power save function determined.

Preferably, described according to described current state parameter, determine that corresponding current power save function comprises:

Determine the current electricity-saving state corresponding to described current state parameter;

Utilize preset state to operate mapping table, determine the current power save function corresponding to described current electricity-saving state; Wherein said preset state operation mapping table comprises multiple corresponding relation, and each described corresponding relation refers to the corresponding relation between electricity-saving state and power save function.

Preferably, multiple corresponding relations of comprising of preset state operation mapping table comprise: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.

Preferably, the current state parameter of the electronic equipment of monitoring comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state;

Wherein, describedly determine that the current electricity-saving state corresponding to described current state parameter comprises:

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage does not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state for non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage do not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

Preferably, described first power save function comprises: application program and the cleaning internal memory of closing running background;

Described second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations;

Described 3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value;

Described 4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.

Present invention also provides a kind of battery saving arrangement of electronic equipment, comprising:

State parameter monitoring modular, for when receiving power-saving command, the current state parameter of monitoring electronic equipment;

Power save function determination module, for according to described current state parameter, determines corresponding current power save function;

Power save function execution module, for performing the described current power save function determined.

Preferably, described power save function determination module comprises:

Electricity-saving state determination submodule, for determining the current electricity-saving state corresponding to described current state parameter;

Power save function determination submodule, for utilizing preset state to operate mapping table, determines the current power save function corresponding to described current electricity-saving state; Wherein said preset state operation mapping table comprises multiple corresponding relation, and each described corresponding relation refers to the corresponding relation between electricity-saving state and power save function.

Preferably, the multiple corresponding relations that comprise of preset state operation mapping table utilized in described power save function determination submodule comprise: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.

Preferably, the current state parameter of the electronic equipment of described state parameter monitoring module monitors comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state;

Wherein, described electricity-saving state determination submodule comprises:

First segment electricity condition determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state be non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition,

Second section electricity condition determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition,

3rd electricity-saving state determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state,

4th electricity-saving state determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

Preferably, described first power save function comprises: application program and the cleaning internal memory of closing running background;

Described second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations;

Described 3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value;

Described 4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.

From above technical scheme, the invention has the beneficial effects as follows:

The power-saving method of electronic equipment provided by the invention, when receiving power-saving command, the state parameter that monitoring electronic equipment is current, according to the current state parameter monitored, determine the power save function of the needs execution that current state parameter is corresponding, and then perform the power save function determined, thus realize the economize on electricity object of electronic equipment.Compared with prior art, the present invention not closes the power consumption module monitored simply, but according to the state parameter of electronic equipment, determines corresponding power save function, thus makes power save function more flexible and pointed.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, be briefly described to the accompanying drawing used required in embodiment or description of the prior art below, apparently, accompanying drawing in the following describes is only embodiments of the invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, other accompanying drawing can also be obtained according to the accompanying drawing provided.

The process flow diagram of the power-saving method of the electronic equipment that Fig. 1 provides for the embodiment of the present invention;

The structural representation of the battery saving arrangement of the electronic equipment that Fig. 2 provides for the embodiment of the present invention;

The structural representation of the battery saving arrangement of the electronic equipment that Fig. 3 provides for another embodiment of the present invention;

The structural representation of the electricity-saving state determination submodule that Fig. 4 provides for the embodiment of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, be clearly and completely described the technical scheme in the embodiment of the present invention, obviously, described embodiment is only the present invention's part embodiment, instead of whole embodiments.Based on the embodiment in the present invention, those of ordinary skill in the art, not making the every other embodiment obtained under creative work prerequisite, belong to the scope of protection of the invention.

It should be noted that, the power-saving method of the electronic equipment that following each embodiment can be provided regards application program as, in order to realize object of economizing on electricity, application program is needed to be pre-installed in electronic equipment, when after this application program of unlatching, application program just can monitor the running status of electronic equipment, and utilizes monitoring result to carry out power save function, thus realizes economize on electricity object.The power-saving method performed by application program is illustrated below with specific embodiment.

With reference to Fig. 1, it illustrates the flow process of the power-saving method of the electronic equipment that the embodiment of the present invention provides, specifically comprise the following steps:

Step S101: when receiving power-saving command, the current state parameter of monitoring electronic equipment.

Wherein, the instruction of opening application program and power-saving command, that is, application program is just opened after receiving power-saving command, thus starts to monitor electronic equipment.Wherein, power-saving command can generate when electronic equipment is started shooting, thus the monitoring that realization just can realize when electronic equipment is started shooting electronic equipment; This power-saving command can be generated by the trigger action of user, when namely user needs to monitor electronic equipment, and just opening application program monitoring electronic equipment.

Particularly, refer to the current state parameter of monitoring electronic equipment to the monitoring of electronic equipment, state parameter can be one, also can be multiple.Such as, what state parameter comprised in CPU usage, memory usage, bluetooth state, vibrating state etc. is any one or more.When state parameter is multiple, state parameter can be divided into two classes, a class reflection be the running status of electronic equipment, as CPU usage, memory usage, another kind of what show is electronic equipment with or without opening the large functional module of some power consumption, as bluetooth module, shock module.Certainly, the functional module that this power consumption is large pre-defines in the application.

Monitoring state parameter refers to the parameter value of the state parameter obtaining electronic equipment, it should be noted that, the parameter value record of the every state parameter of electronic equipment in system files, in observation process, find this system file, in this system file, search the state parameter needing monitoring, and obtain the parameter value of every state parameter.Such as, need the state parameter of monitoring to comprise bluetooth state, find bluetooth parameters in system files, and obtain the parameter value of bluetooth parameters.

Step S102: according to described current state parameter, determines corresponding current power save function.

Wherein, according to the concrete numerical value of the state parameter monitored, determine the power save function needing to perform.Particularly, determine that the mode of power save function can be, the parameter value corresponding according to the power down mode pre-set, the state parameter monitored is judged, thus determine electronic equipment needs to enter what kind of power down mode (or can be understood as electronic equipment be in what kind of power consumption state), and then determine the power save function that power down mode (or power consumption state) is corresponding.

It should be noted that, current power save function is the content of operation corresponding with current state parameter, and different current state parameter is corresponding different current power save function then.

Step S103: perform the described current power save function determined.

Wherein, perform the current power save function needing to perform determined, reduce the power consuming operation of electronic equipment, thus realize economize on electricity object.

From above technical scheme, the power-saving method of the electronic equipment that the embodiment of the present invention provides, when receiving power-saving command, the state parameter that monitoring electronic equipment is current, according to the current state parameter monitored, determine the power save function of the needs execution that current state parameter is corresponding, and then perform the power save function determined, thus realize the economize on electricity object of electronic equipment.It should be noted that, the state parameter of monitoring equipment in the present invention, state parameter can reflect the power consumption condition of equipment, utilization state parameter determines corresponding power save function, and namely the power consumption module not only monitoring unlatching simply closes this power consumption module, consider the different running statuses of electronic equipment, achieve the actual motion state according to electronic equipment, determine different power save functions, power save function is more pointed.

It should be noted that, the embodiment of the present invention can be applied in Android system, but is not limited in this kind of system.In addition, power-saving method is the process constantly performed, until electronic equipment shutdown or application program are closed, this point is as can be seen from " monitoring " action in monitoring state parameter.Particularly, monitoring can be Real-Time Monitoring, also can being the time interval monitoring according to presetting, just performing following step S102 to determine the current power save function needing to perform whenever step S101 monitors a state parameter, after determining, just performing step S103 to perform power save function.

Particularly, in above-described embodiment, determine that the implementation of current power save function can be according to current state parameter:

Determine the current electricity-saving state corresponding to current state parameter, utilize preset state to operate mapping table, determine the current power save function corresponding to current electricity-saving state.

It should be noted that, comprise multiple corresponding relation in preset state operation mapping table, each corresponding relation refers to the corresponding relation between electricity-saving state and power save function.Visible, what preset state operation mapping table reflected is under certain electricity-saving state, needs to perform what kind of power save function.Thus, in state of operation mapping table, determine which electricity-saving state the power save function that current electricity-saving state is corresponding is, power save function corresponding for this electricity-saving state is defined as current power save function.

Alternatively, the number of the corresponding relation comprised in state of operation mapping table is four, namely respective between four electricity-saving states and four power save functions corresponding relation, is respectively: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.It should be noted that, the relation word such as " first ", " second " is only to distinguish, and there is no other implications.

In addition, state parameter can comprise three aspects, be the running status of electronic equipment underlying hardware on the one hand, as memory usage, CPU usage, battery electric quantity, device temperature etc., be the state of electronic equipment working procedure on the other hand, as the number of applications, number of processes etc. of opening, another aspect is the state of electronic equipment basic function module, as bluetooth module, Wi-Fi module, shock module, GPS module etc.Certainly, electricity-saving state can also comprise the combination of above-mentioned either side or any two aspects, and the present invention is also not specifically limited.

Particularly, the current state parameter of the electronic equipment of monitoring comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state.

And then, determine that the implementation that the current electricity-saving state corresponding to current state parameter comprises can be:

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage does not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state for non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage do not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

Visible, the state parameter that four electricity-saving states are corresponding different respectively, utilizes the combination of different state parameters to form a kind of electricity-saving state.Briefly, in first segment electricity condition, the quantity that application program is opened is more, and the process that electronic equipment runs is also more, and memory usage is higher, but the utilization rate of the battery electric quantity of electronic equipment, device temperature, CPU is also in rational state; In second section electricity condition, on the basis of first segment electricity condition, open the settings such as bluetooth, GPS and vibrations, can also be that it is any one or any number of to open in three simultaneously certainly; In 3rd electricity-saving state, on the basis of second section electricity condition, the temperature of electronic equipment is higher, the utilization rate of CPU is also higher; In 4th electricity-saving state, on the basis of the 3rd electricity-saving state, battery electric quantity is in reduced levels.

In addition, four kinds of power save functions can be respectively:

First power save function comprises: application program and the cleaning internal memory of closing running background;

Second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations;

3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value;

4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.

Specifically, in the first power save function, background application can take certain CPU and internal memory, and background application comprises the application programs such as Taobao, QQ, micro-letter, microblogging, if and these application programs carry out traffic operation, then more electricity can be expended, therefore, need to close these application programs at running background, thus save a part of electricity.In second power save function, need on the basis of the first power save function, also need to close the functional module that bluetooth, GPS, vibrations etc. comparatively expend electricity.In 3rd power save function, on the basis of the second power save function, also adjust screen intensity further, be namely adjusted to the smaller value preset.In a mobile device, screen intensity compares and expends electricity, and therefore, adjustment brightness can reach object of economizing on electricity preferably.In 4th power save function, on the basis of the 3rd power save function, also need the compressibility turning down the frequency of CPU, the sampling rate reducing audio frequency apparatus and raising application apparatus sectional drawing further.It should be noted that, the frequency of CPU is lower, the work load of CPU is less, power consumption is also less, and in addition, the sectional drawing of list of application is to show user, therefore do not need to arrange higher sampling rate, the viewing demand of user can be met within the scope of certain compressibility, therefore, suitably turn compressibility down, can not affect on the basis of Consumer's Experience, for a part of electricity saved by electronic equipment.

Be introduced the battery saving arrangement of the electronic equipment that the embodiment of the present invention provides below, it should be noted that, the explanation of the battery saving arrangement of associated electronics can refer to the explanation of the power-saving method of the electronic equipment that each embodiment above provides, and does not repeat below.

See Fig. 2, it illustrates the structure of the battery saving arrangement of the electronic equipment that the embodiment of the present invention provides, specifically comprise: state parameter monitoring modular 100, power save function determination module 200 and power save function execution module 300; Wherein:

State parameter monitoring modular 100, for when receiving power-saving command, the current state parameter of monitoring electronic equipment;

Power save function determination module 200, for according to described current state parameter, determines current power save function;

Power save function execution module 300, for performing the described current power save function determined.

From above technical scheme, in the battery saving arrangement of the electronic equipment that the embodiment of the present invention provides, state parameter monitoring modular 100 can monitor the current state parameter of electronic equipment, power save function determination module 200 utilizes the current state parameter determined to determine the current power save function needing to perform, power save function execution module 300 performs current power save function, thus realizes economize on electricity object.

As shown in Figure 3, power save function determination module 200 comprises:

Electricity-saving state determination submodule 201, for determining the current electricity-saving state corresponding to described current state parameter;

Power save function determination submodule 202, for utilizing preset state to operate mapping table, determines the current power save function corresponding to described current electricity-saving state; Wherein said preset state operation mapping table comprises multiple corresponding relation, and each described corresponding relation refers to the corresponding relation between electricity-saving state and power save function.

Alternatively, the multiple corresponding relations that comprise of preset state operation mapping table utilized in power save function determination submodule comprise: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.

In addition, the current state parameter of the electronic equipment of state parameter monitoring modular 100 monitoring comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state;

Wherein, as shown in Figure 4, electricity-saving state determination submodule 201 comprises:

First segment electricity condition determining unit 11, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state be non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition,

Second section electricity condition determining unit 12, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition,

3rd electricity-saving state determining unit 13, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state,

4th electricity-saving state determining unit 14, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

In addition, described first power save function comprises: application program and the cleaning internal memory of closing running background; Described second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations; Described 3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value; Described 4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.

It should be noted that, each embodiment in this instructions all adopts the mode of going forward one by one to describe, and what each embodiment stressed is the difference with other embodiments, between each embodiment identical similar part mutually see.

Also it should be noted that, in this article, the such as relational terms of first and second grades and so on is only used for an entity or operation to separate with another entity or operational zone, and not necessarily requires or imply the relation that there is any this reality between these entities or operation or sequentially.And, term " comprises ", " comprising " or its any other variant are intended to contain comprising of nonexcludability, thus make to comprise the process of a series of key element, method, article or equipment and not only comprise those key elements, but also comprise other key elements clearly do not listed, or also comprise by the intrinsic key element of this process, method, article or equipment.When not more restrictions, the key element limited by statement " comprising ... ", and be not precluded within process, method, article or the equipment comprising above-mentioned key element and also there is other identical element.

To the above-mentioned explanation of the disclosed embodiments, professional and technical personnel in the field are realized or uses the present invention.To be apparent for those skilled in the art to the multiple amendment of these embodiments, General Principle as defined herein can without departing from the spirit or scope of the present invention, realize in other embodiments.Therefore, the present invention can not be restricted to these embodiments shown in this article, but will meet the widest scope consistent with principle disclosed herein and features of novelty.

Claims (10)

1. a power-saving method for electronic equipment, is characterized in that, comprising:

When receiving power-saving command, the current state parameter of monitoring electronic equipment;

According to described current state parameter, determine corresponding current power save function;

Perform the described current power save function determined.

2. the power-saving method of electronic equipment according to claim 1, is characterized in that, described according to described current state parameter, determines that corresponding current power save function comprises:

Determine the current electricity-saving state corresponding to described current state parameter;

Utilize preset state to operate mapping table, determine the current power save function corresponding to described current electricity-saving state; Wherein said preset state operation mapping table comprises multiple corresponding relation, and each described corresponding relation refers to the corresponding relation between electricity-saving state and power save function.

3. the power-saving method of electronic equipment according to claim 2, it is characterized in that, multiple corresponding relations of comprising of preset state operation mapping table comprise: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.

4. the power-saving method of electronic equipment according to claim 3, it is characterized in that, the current state parameter of the electronic equipment of monitoring comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state;

Wherein, describedly determine that the current electricity-saving state corresponding to described current state parameter comprises:

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage does not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state for non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage do not reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state;

When described application program open that quantity reaches pre-set programs threshold value, described process initiation quantity reaches default process threshold value, described memory usage reach first preset utilization rate threshold value, described CPU usage reach that second presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state is opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

5. the power-saving method of electronic equipment according to claim 3, is characterized in that,

Described first power save function comprises: application program and the cleaning internal memory of closing running background;

Described second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations;

Described 3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value;

Described 4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.

6. a battery saving arrangement for electronic equipment, is characterized in that, comprising:

State parameter monitoring modular, for when receiving power-saving command, the current state parameter of monitoring electronic equipment;

Power save function determination module, for according to described current state parameter, determines corresponding current power save function;

Power save function execution module, for performing the described current power save function determined.

7. the battery saving arrangement of electronic equipment according to claim 6, is characterized in that, described power save function determination module comprises:

Electricity-saving state determination submodule, for determining the current electricity-saving state corresponding to described current state parameter;

Power save function determination submodule, for utilizing preset state to operate mapping table, determines the current power save function corresponding to described current electricity-saving state; Wherein said preset state operation mapping table comprises multiple corresponding relation, and each described corresponding relation refers to the corresponding relation between electricity-saving state and power save function.

8. the battery saving arrangement of electronic equipment according to claim 7, it is characterized in that, multiple corresponding relations that the preset state that utilizes in described power save function determination submodule operation mapping table comprises comprise: the corresponding relation of the corresponding relation of the corresponding relation of the corresponding relation of first segment electricity condition and the first power save function, second section electricity condition and the second power save function, the 3rd electricity-saving state and the 3rd power save function, the 4th electricity-saving state and the 4th power save function.

9. the battery saving arrangement of electronic equipment according to claim 8, it is characterized in that, the current state parameter of the electronic equipment of described state parameter monitoring module monitors comprises: application program opens quantity, process initiation quantity, memory usage, CPU usage, battery electric quantity, device temperature, bluetooth state, GPS state and vibrating state;

Wherein, described electricity-saving state determination submodule comprises:

First segment electricity condition determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is non-opening, described GPS state be non-opening and described vibrating state for non-opening time, determine that the current electricity-saving state of described electronic equipment is first segment electricity condition,

Second section electricity condition determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage does not reach second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature does not reach preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is second section electricity condition,

3rd electricity-saving state determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity reaches default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 3rd electricity-saving state,

4th electricity-saving state determining unit, pre-set programs threshold value is reached for opening quantity when described application program, described process initiation quantity reaches default process threshold value, described memory usage reaches first and presets utilization rate threshold value, described CPU usage reaches second and presets utilization rate threshold value, described battery electric quantity does not reach default power threshold, described device temperature reaches preset temperature threshold value, described bluetooth state is opening, described GPS state be opening and described vibrating state is opening time, determine that the current electricity-saving state of described electronic equipment is the 4th electricity-saving state.

10. the battery saving arrangement of electronic equipment according to claim 8, is characterized in that,

Described first power save function comprises: application program and the cleaning internal memory of closing running background;

Described second power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS and close vibrations;

Described 3rd power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity is adjusted to predetermined luminance value and the screen locking time interval is adjusted to preset time value;

Described 4th power save function comprises: close the application program of running background, cleaning internal memory, close bluetooth, close GPS, close vibrations, screen intensity be adjusted to predetermined luminance value, be adjusted to preset time value the screen locking time interval, the frequency of CPU be adjusted to predeterminated frequency value, audio frequency apparatus sampling rate be adjusted to default sampled value and the compressibility of list of application sectional drawing is adjusted to default compressibility value.