CN106020420A - Power consumption reduction method and electronic device - Google Patents

Abstract

The invention discloses a power consumption reduction method. The method comprises the steps of obtaining battery power and/or a power-saving mode of an electronic device; and adjusting working performance of a communication element of the electronic device to a degree matched with the battery power and/or the power-saving mode, wherein the lower the battery power is, the more power-saving the power-saving mode is and the lower the adjusted working performance of the communication element of the electronic device is. Through the method, different power-saving modes are automatically set according to battery power values of the electronic device, or the power-saving mode is specified by a user, and then the electronic device adjusts the working performance of the communication element according to the battery power values and/or the power-saving modes to meet demands of the user on communication performance and power consumption at different moments.

Description

A kind of method reducing power consumption and electronic equipment

Technical field

The present invention relates to reduce power consumption technology field, particularly relate to a kind of method reducing power consumption and Electronic equipment.

Background technology

In today that intelligent electronic device develops rapidly, the development of battery lags behind electricity the most from far away Subset, the continuation of the journey contradiction of electronic equipment seems highlighting all the more, so the power consumption of electronic equipment Control problem seems the most important.But, communication device service behaviour and merit in electronic equipment The contradiction of consumption, existing electronic equipment uses the mode compromising communication device service behaviour and power consumption Fixed communication parameter, make communication device service behaviour be not optimum be not worst, part electronics sets Standby battery saving mode clear-cut communication close element reaches power saving purpose.

Summary of the invention

The technical problem that present invention mainly solves is to provide a kind of method reducing power consumption and electronics sets Standby, it is possible to meet user the most in the same time to communication device service behaviour and the demand of power consumption.

For solving above-mentioned technical problem, the technical scheme that the present invention uses is: provide one fall The method of low-power consumption, is applied to an electronic equipment, and the method includes:

Obtain the battery electric quantity of electronic equipment and/or residing battery saving mode；

The service behaviour of the communication device of electronic equipment is adjusted to battery electric quantity and/or residing province The degree of power mode coupling, battery electric quantity is the least, battery saving mode more power saving, the communication of electronic equipment The service behaviour of element is adjusted so as to the lowest.

Wherein, the parameter characterizing service behaviour includes communication linkage parameter, and the method includes:

Battery electric quantity, battery saving mode and communication linkage parameter are respectively divided identical or different quantity Grade；

Obtain grade and/or the grade of residing battery saving mode of battery electric quantity；

Utilize the grade of battery electric quantity and/or the same grade of grade Auto-matching of residing battery saving mode Or different grades of communication linkage parameter.

Wherein, the grade that battery electric quantity, battery saving mode are respectively divided identical or different quantity includes:

By the battery electric quantity of electronic equipment according to electricity size divide from big to small n different etc. Level so that the 1st battery electric quantity is maximum, the n-th battery electric quantity is minimum；

Battery saving mode is divided n different grade according to the size of power saving degree so that the 1st province The power saving degree of power mode is minimum, and the power saving degree of the n-th battery saving mode is maximum；

Wherein, n is positive integer.

Wherein, communication device is bluetooth element, communication linkage parameter include connect spacing parameter, from Machine delay parameter and link time-out time parameter, divide identical or different quantity by communication linkage parameter Grade include:

N different grade is divided according to time length so that the 1st connects by connecting spacing parameter The numerical value of spacing parameter is minimum, and n-th connects the numerical value maximum of spacing parameter；

N different grade will be divided so that the 1st from the number of machine delay parameter from machine delay parameter Value minimum, n-th is maximum from the numerical value of machine delay parameter；

Link time-out time parameter is divided n different grade according to time length so that the 1st The numerical value of link time-out time parameter is maximum, and n-th connects the numerical value minimum of time-out time parameter, and Make the link time-out time parameter of same grade more than connecting spacing parameter and from machine delay parameter Product after adding one.

Wherein, the grade Auto-matching utilizing the grade of battery electric quantity and/or residing battery saving mode is same Grade or different grades of communication linkage parameter include:

Utilize the grade of battery electric quantity and/or the same grade of grade Auto-matching of residing battery saving mode Connection spacing parameter, from machine delay parameter and link time-out time parameter.

Wherein, in n different grade, the connection spacing parameter of each grade is the integer of 1.25ms Times, the numerical range connecting spacing parameter is 7.5-4000ms.

Wherein, the numerical range from machine delay parameter of n different grade is 0-499.

Wherein, the numerical range of the link time-out time parameter of n different grade is 100-32000ms。

Wherein, the grade obtaining residing battery saving mode includes:

Obtain the battery saving mode being in a certain grade of user's manual configuration；Or

Battery saving mode by the same grade of grade Auto-matching of battery electric quantity.

For solving above-mentioned technical problem, another technical solution used in the present invention is: provide one Electronic equipment, electronic equipment includes:

Detector unit, detector unit is for obtaining the battery electric quantity of electronic equipment and/or residing power saving mould Formula；

Adjustment unit, the service behaviour of the communication device of electronic equipment is adjusted to battery electric quantity and / or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, and electronics sets The service behaviour of standby communication device is adjusted so as to the lowest.

The invention has the beneficial effects as follows: be different from the situation of prior art, the present invention is by obtaining electricity The battery electric quantity of subset and/or residing battery saving mode；Workability by the communication device of electronic equipment Can adjust to the degree mated with battery electric quantity and/or residing battery saving mode, battery electric quantity is the least, province Power mode gets over power saving, and the service behaviour of the communication device of electronic equipment is adjusted so as to the lowest.By this Mode, the present invention arranges different battery saving modes automatically according to electric device battery electricity size, or The battery saving mode that person is specified by user, then, electronic equipment is according to battery electric quantity size and/or power saving The service behaviour of mode adjustment coupling communication device, with meet user the most in the same time to communication performance and The demand of power consumption.

Accompanying drawing explanation

Fig. 1 is the schematic flow sheet that the present invention reduces method first embodiment of power consumption；

Fig. 2 is the schematic flow sheet that the present invention reduces method second embodiment of power consumption；

Fig. 3 is the flow process signal that the present invention reduces method the second embodiment one application scenarios of power consumption Figure；

Fig. 4 is the structural representation of electronic equipment the first embodiment of the present invention；

Fig. 5 is the structural representation of electronic equipment one entity apparatus of the present invention.

Detailed description of the invention

For making those skilled in the art be best understood from technical scheme, below in conjunction with attached Figure and detailed description of the invention are to a kind of method reducing power consumption provided by the present invention and electronic equipment It is elaborated further.

Referring to Fig. 1, the present invention reduces method first embodiment of power consumption, including:

Step S11: obtain the battery electric quantity of electronic equipment and/or residing battery saving mode；

In step s 11, the battery electric quantity obtaining electronic equipment can detect electronics by testing circuit The dump energy of device battery；

Electronic equipment generally uses powder source management mode to battery electric quantity and the workability of operation element Can be managed, usually said powder source management mode include ultra electric power-saving mode, battery saving mode, The pattern of the multi-layer management power supply power consumption of normal mode etc., wherein ultra electric power-saving mode refers to province Electricity effect maximizes, and on the premise of assurance function, the modules of electronic equipment enters minimum merit Consumption pattern；Battery saving mode refers to that the effect requirements to electricity-saving function is moderate, each mould of electronic equipment Block performance is in part and limits；Normal mode refers to without power saving requirement, the modules performance of equipment Preferentially.And heretofore described battery saving mode is that the concept of a kind of broad sense is it can be understood as power supply Management mode, battery saving mode contains ultra electric power-saving mode and normal mode.

Obtaining residing battery saving mode can be by detecting that the dump energy of battery is at backstage Auto-matching Battery saving mode, as when the dump energy detected is more sufficient, the now battery saving mode of Auto-matching For normal mode, when the dump energy deficiency detected, now the battery saving mode of Auto-matching is Ultra electric power-saving mode；Battery saving mode residing for obtaining manually selects also by user and configures.

Step S12: the service behaviour of the communication device of electronic equipment is adjusted to battery electric quantity and/ Or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, and electronics sets The service behaviour of standby communication device is adjusted so as to the lowest.

In step s 12, the communication device of electronic equipment is to make electronic equipment itself and other equipment The components and parts communicated or module, communication device uses wirelessly or non-wirelessly communication protocol, as bluetooth, Wifi, Zigbee communication agreement etc.；The service behaviour of communication device has referred to that the function of communication is wanted The performance reached.

The service behaviour of the communication device of electronic equipment adjusts can be according to battery electric quantity or residing province Power mode, after obtaining the battery electric quantity of electronic equipment in step s 11, can be according to electronic equipment Battery electric quantity adjusts the service behaviour of coupling communication device, and without mating power saving by battery electric quantity After pattern, recycling battery saving mode adjusts the service behaviour of coupling communication device.

When adjusting the service behaviour of communication device according to battery saving mode, there is battery electric quantity and user The situation of the battery saving mode contradiction of configuration, now with user's configuration preference.For example, electronics is worked as The battery electric quantity of equipment is sufficient, but when user configured battery saving mode is ultra electric power-saving mode, this Time with user's configuration preference, adjust the workability of coupling communication device according to ultra electric power-saving mode Energy.

The service behaviour of the communication device of electronic equipment is adjusted to battery electric quantity and/or residing province During the degree that power mode mates, this adjustment coupling can be that backstage is automatically performed, it is also possible to is to use Family manual configuration, the optional window by ejecting, preset the sign of certain numerical value scope in the window The parameter of communication device service behaviour selects for user, and the numerical range of these parameters can make electricity Pond electricity is the least, battery saving mode more power saving, and the service behaviour of the communication device of electronic equipment is adjusted so as to The lowest, these parameters of user's manual configuration, complete to adjust coupling.

The service behaviour of the communication device of electronic equipment is adjusted to battery electric quantity and/or residing province The degree of power mode coupling, when battery electric quantity is the most, when residing battery saving mode gets over not power saving, user The each module performance that it is generally desirable to electronic equipment is good even optimum, now adjusts and characterizes communication device The parameter of service behaviour so that communication performance is the best, say, that meet with the highest performance configuration Communication requirement, although now power consumption can be the biggest, but meet user to functional even Optimum requirement；

When battery electric quantity is not enough, and during the relatively power saving of residing battery saving mode, user it is generally desirable to electronic equipment Each module dissipation relatively low, adjust reaction communication device service behaviour parameter so that communication power consumption Relatively low, meet the requirement of communication with relatively low performance configuration, although now the performance of communication device is not It is fine, but meets user and reduce the requirement of power consumption.

In this way, the present invention reduces method first embodiment of power consumption and can realize by electricity The battery saving mode that subset battery electric quantity size Auto-matching is different, or by user's manual configuration Battery saving mode, then, it is logical that electronic equipment adjusts coupling according to battery electric quantity size and/or battery saving mode The service behaviour of cell part, to meet user's service behaviour to communication device and the demand of power consumption.

Referring to Fig. 2, the present invention reduces method second embodiment of power consumption, characterizes communication device The parameter of service behaviour includes that communication linkage parameter, communication linkage parameter are that electronic equipment sets with other The standby series of parameters carrying out data communication, as data transmission time intervals, message transmission rate, Data transmission figure place, baud rate, time-out link time etc., communication linkage parameter can include that this is One in row parameter or combination.

Concretely comprising the following steps of the method:

Step S21: battery electric quantity, battery saving mode and communication linkage parameter are respectively divided identical or The grade of varying number；

In order to the communication linkage parameter of the communication device of electronic equipment being automatically adjusted to and battery electricity Amount and/or residing battery saving mode coupling degree, can first by battery electric quantity according to electricity size, general Battery saving mode is how many according to power saving degree, communication linkage parameter is many according to performance quality and/or power consumption It is respectively divided a number of grade less；

The division numbers of battery electric quantity, battery saving mode and communication linkage parameter may be the same or different, and one For as, battery electric quantity, battery saving mode and communication linkage parameter are divided into the grade of equal number It is more easy to operation, otherwise easily causes the waste of part grade.

For example, battery electric quantity can be divided 3 grades according to electricity size, the 1st grade Battery electric quantity is 1302-1952mAh, and the battery electric quantity of the 2nd grade is 651-1301mAh, the 3rd The battery electric quantity of grade is 0-650mAh, and wherein, 1952mAh is the maximum of battery electric quantity, What numerical value here was only used in citing is easy to explanation, does not represent any restriction；Correspondingly, According to power saving degree, how many battery saving modes can be divided 3 grades, the 1st grade is not battery saving mode, 2nd grade be can battery saving mode, the 3rd grade is ultra electric power-saving mode；Communication linkage parameter is pressed How much dividing 3 grades according to power consumption, the communication linkage parameter power consumption of the 1st grade is relatively big, and the 2nd etc. The communication linkage parameter power consumption of level is moderate, and the communication linkage parameter power consumption of the 3rd grade is relatively low.

Step S22: obtain grade and/or the grade of residing battery saving mode of battery electric quantity；

The dump energy of detection battery, determines the grade of battery electric quantity according to the dump energy of battery, At the same grade of grade Auto-matching according to battery electric quantity or different grades of battery saving mode, can obtain Grade to residing battery saving mode.With above-mentioned for example, if be detected that dump energy exist In the range of 0-650mAh, it may be determined that battery electric quantity is the battery electric quantity of the 3rd grade, the most automatically Mate the ultra electric power-saving mode of the 3rd grade；

Electronic equipment provides the different grades of battery saving mode window of user setup, and user is as required Manually selecting the battery saving mode configuring a certain grade, this mode also can obtain residing battery saving mode Grade.

Step S23: utilize the grade of battery electric quantity and/or the grade Auto-matching of residing battery saving mode Same grade or different grades of communication linkage parameter.

Utilize the grade of battery electric quantity and/or the same grade of grade Auto-matching of residing battery saving mode Or different grades of communication linkage parameter, so that battery electric quantity is the least, battery saving mode more power saving, The communication linkage parameter adjusting communication device makes the service behaviour of communication device the lowest.

In an application scenarios of second embodiment of the invention, the communication device of electronic equipment is bluetooth Element, the communication linkage parameter of bluetooth element includes connecting spacing parameter, from machine delay parameter and chain Connect time-out time parameter, as it is shown on figure 3, the concrete steps of this application scene include:

Step S201: the battery electric quantity of electronic equipment is divided n from big to small according to electricity size Different grade so that the 1st battery electric quantity is maximum, the n-th battery electric quantity is minimum, and wherein, n is Positive integer；

Step S202: battery saving mode is divided n different grade according to the size of power saving degree, The power saving degree making the 1st battery saving mode is minimum, and the power saving degree of the n-th battery saving mode is maximum；

Step S203: divide n different grade by connecting spacing parameter according to time length, make The numerical value obtaining the 1st connection spacing parameter is minimum, and n-th connects the numerical value maximum of spacing parameter；

N different grade will be divided so that the 1st from the number of machine delay parameter from machine delay parameter Value minimum, n-th is maximum from the numerical value of machine delay parameter；

Link time-out time parameter is divided n different grade according to time length so that the 1st The numerical value of link time-out time parameter is maximum, and n-th connects the numerical value minimum of time-out time parameter, and Make the link time-out time parameter of same grade more than connect spacing parameter and same grade from Machine delay parameter add one after product value；

In step S203, connect spacing parameter and refer to the interval time of twice communication, if Interval is the least, then bluetooth data communication is the most frequent, and data throughput is the highest, and power consumption is more Greatly, but communication performance is the best；If interval time is the biggest, then bluetooth element just has the most time Dormancy, data communication frequent degree is the lowest, and data throughput is the lowest, and power consumption is the lowest, and communication performance is more Bad.Dividing n different grade by connecting spacing parameter according to time length, n different In grade, the connection spacing parameter of each grade is the integral multiple of 1.25ms, and Main Basis is that bluetooth is led to The regulation of letter agreement.The numerical range connecting spacing parameter is 7.5-4000ms, can connect the 1st Spacing parameter is set to 7.5ms, and n-th connects spacing parameter is set to 4000ms.It should be noted that In actual applications, the numerical range connecting spacing parameter is alternatively difference, is not limited thereto, Based on actual demand.

From machine delay parameter refer to from equipment can skip to the confirmation receiving main equipment data Number of times.It is such as 0 from machine delay parameter, each packet of main equipment must be replied from equipment； It is 5 from machine delay parameter, confirms once often receive 6 packets of main equipment from equipment after.From It is the most that equipment skips confirmation number of times, just can save more sending power consumption, have more time dormancy, Power consumption is the lowest, and the time that main equipment packet loss retransmits is the longest, and communication performance is the most bad.If from It is the fewest that equipment skips confirmation number of times, and the sending power consumption of saving is the fewest, and dormancy time is the fewest, merit Consuming the biggest, the time that main equipment packet loss retransmits is the shortest, and communication performance is the best.

The different grade of n will be divided from machine delay parameter, n different grade from machine time delay The numerical range of parameter is chosen as 0-499, is set to 0 by the 1st from machine delay parameter, by n-th from machine Delay parameter is set to 499.It should be noted that in actual applications, from the number of machine delay parameter Value scope is alternatively difference, is not limited thereto, based on actual demand.

Link time-out time parameter refers to more than this time and does not communicate, and bluetooth master-slave equipment will Automatically disconnect.If link time-out time parameter is the biggest, the slowest automatically disconnect, merit Consume the biggest；If link time-out time parameter is the least, the fastest automatically disconnecting, power consumption is the least； Data transmission new after disconnecting is accomplished by re-establishing connection, and the slowest automatic disconnection is even Connecing, communication performance is the best, the fastest automatically disconnects, and communication performance is the most bad.

Link time-out time parameter is divided n different grade, the link of n different grade The numerical range of time-out time parameter is 100-32000ms, the 1st link time-out time parameter is set For 32000ms i.e. 32s, the n-th link time-out time parameter is set to 100ms.Need explanation Be, in actual applications, link time-out time parameter numerical range be alternatively difference, not with This is limited, based on actual demand.

In above-mentioned partition process, the link time-out time parameter of same grade is more than connecting interval ginseng Number and the product value after machine delay parameter adds, say, that link time-out time parameter ＞ (from Machine delay parameter+1) * connects spacing parameter, so that data communication is smooth, otherwise, principal and subordinate Equipment carries out, when a data transfer is not fully complete, alreading more than link time-out time, master-slave equipment Automatically disconnect, it is impossible to complete the transmission of normal data.

Step S204: whether detection electronic equipment supports automatically configuring of battery saving mode, if supported Automatically configuring, then perform step S205, if not supporting to automatically configure, then performing step S206；

The configuration of battery saving mode can be automatically performed by backstage, it is possible to complete by user's manual configuration Become.If the automatically configuring of battery saving mode supported by electronic equipment, then perform step S205, otherwise, Perform step S206.

Step S205: whether detection battery charge level changes, according to the battery electric quantity of detection The battery saving mode of the same grade of grade Auto-matching；

Electronic equipment detects battery electric quantity automatically, battery electric quantity confirm its affiliated battery electric quantity etc. Level, according to the battery saving mode of the same grade of battery charge level Auto-matching, namely the 1st battery electricity Amount Auto-matching the 1st battery saving mode, the 2nd battery electric quantity Auto-matching the 2nd battery saving mode, with this Class is pushed into n-th battery electric quantity Auto-matching the n-th battery saving mode.

Step S206: obtain the battery saving mode being in a certain grade of user's manual configuration；

If automatically configuring of battery saving mode do not supported by electronic equipment, use can be shown on a user interface In arranging the window of battery saving mode grade, the power saving mould of a certain grade of user's option and installment in the window Formula.

Step S207: according to the connection spacing parameter of the same grade of battery saving mode Auto-matching, from machine Delay parameter and link time-out time parameter.

Connection spacing parameter according to the same grade of battery saving mode Auto-matching, from machine delay parameter and Link time-out time parameter, namely the 1st battery saving mode Auto-matching the 1st connect spacing parameter, the 1 from machine delay parameter and the 1st link time-out time parameter, the 2nd battery saving mode Auto-matching the 2nd Connect spacing parameter, the 2nd from machine delay parameter and the 2nd link time-out time parameter, by that analogy Spacing parameter is connected, n-th from machine delay parameter and n-th to the n-th battery saving mode Auto-matching n-th Link time-out time parameter.

With the 1st battery saving mode Auto-matching the 1st connect spacing parameter, the 1st from machine delay parameter and As a example by 1st link time-out time parameter, the 1st battery saving mode is the pattern that power saving degree is minimum, electricity Pond electricity is sufficient, and therefore the 1st connection spacing parameter of Auto-matching is minimum, and the 1st joins from machine time delay Number minimum, the 1st link time-out time parameter is maximum, and now the communication performance of bluetooth element is good very To optimum, meet user's requirement to communication performance；With the n-th battery saving mode Auto-matching n-th even Connect spacing parameter, n-th from machine delay parameter and n-th link time-out time parameter as a example by, the n-th province Power mode is the pattern that power saving degree is maximum, and battery electric quantity is not enough, and therefore the n-th of Auto-matching is even Connecing spacing parameter maximum, n-th is maximum from machine delay parameter, and the n-th link time-out time parameter is minimum, Now the bluetooth element of electronic equipment is not in closed mode, and its communication power consumption is the lowest Low, bluetooth element communicates with minimum communication performance, meets user's requirement to power consumption.

It can be seen that the present invention reduces method second embodiment of power consumption, communication device is led to The adjustment of letter link parameter is not to simply shut off communication device, or with fixed communication link ginseng Number communicates, but is respectively divided identical by battery electric quantity, battery saving mode and communication linkage parameter Or the grade of varying number, the grade of battery electric quantity that recycling obtains and/or residing battery saving mode The same grade of grade Auto-matching or different grades of communication linkage parameter, meet user the most in the same time Service behaviour and the demand of power consumption to communication device.

Refer to Fig. 4, electronic equipment the first embodiment of the present invention, including detector unit 31 and with The adjustment unit 32 that detector unit 31 is connected.

Detector unit 31 is for obtaining the battery electric quantity of electronic equipment and/or residing battery saving mode；

After the acquisition of the most residing battery saving mode can be by the battery electric quantity of acquisition electronic equipment, utilize Battery electric quantity Auto-matching battery saving mode, it is possible to by user's manual configuration.

Adjustment unit 32 for the service behaviour of the communication device of electronic equipment is adjusted to battery Electricity and/or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, The service behaviour of the communication device of electronic equipment is adjusted so as to the lowest.

Adjustment unit 32 can adjust communication device according to the battery electric quantity automatic or manual of electronic equipment Service behaviour, it is possible to according to battery saving mode automatic or manual adjust communication device service behaviour, Making battery electric quantity the least, battery saving mode gets over power saving, and it is the lowest that the service behaviour of communication device adjusts, Power consumption is the least, communicates with minimum relatively low service behaviour；Battery electric quantity is the biggest, power saving Pattern gets over not power saving, and the power consumption of communication device is the biggest, and it is the best that service behaviour adjusts, with the most very Communicate to optimum service behaviour, to meet user the most in the same time to service behaviour and power consumption Requirement.

Referring to Fig. 5, an entity apparatus of electronic equipment of the present invention, including processor 41, storage Device 42 and bus 43, processor 41, memorizer 42 are connected with bus 43.

Processor 41 is for obtaining the battery electric quantity of electronic equipment and/or residing battery saving mode；

Processor 41 be additionally operable to adjust the service behaviour of the communication device of electronic equipment to battery Electricity and/or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, The service behaviour of the communication device of electronic equipment is adjusted so as to the lowest.

Processor 41 can adjust communication device according to the battery electric quantity automatic or manual of electronic equipment During service behaviour, it is possible to adjust the service behaviour of communication device according to battery saving mode automatic or manual, Making battery electric quantity the least, battery saving mode gets over power saving, and it is the lowest that the service behaviour of communication device adjusts, Power consumption is the least, communicates with minimum relatively low service behaviour；Battery electric quantity is the biggest, power saving Pattern gets over not power saving, and the power consumption of communication device is the biggest, and it is the highest that service behaviour adjusts, with the most very Communicate to optimum service behaviour, to meet user the most in the same time to service behaviour and power consumption Requirement.

Memorizer 42 is for storing the battery electric quantity of electronic equipment, battery saving mode, service behaviour Parameter and processor 41 other data in the course of the work and caching.

In two embodiments of electronic equipment provided by the present invention, it should be understood that taken off The system of dew, apparatus and method, can realize by another way.Such as, described above Device embodiments be only schematically, such as, described module or the division of unit, only Dividing for a kind of logic function, actual can have other dividing mode, the most multiple lists when realizing Unit or assembly can in conjunction with or be desirably integrated into another system, or some features can be ignored, Or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication Connection can be the INDIRECT COUPLING by some interfaces, device or unit or communication connection, Ke Yishi Electrically, machinery or other form.

The described unit illustrated as separating component can be or may not be physically separate , the parts shown as unit can be or may not be physical location, i.e. may be located at One place, or can also be distributed on multiple NE.Can select according to the actual needs Select some or all of unit therein to realize the purpose of present embodiment scheme.

It addition, each functional unit in each embodiment of the present invention can be integrated in a process In unit, it is also possible to be that unit is individually physically present, it is also possible to two or more unit Integrated in a unit.Above-mentioned integrated unit both can realize to use the form of hardware, it is possible to To use the form of SFU software functional unit to realize.

If described integrated unit realizes and as independent product using the form of SFU software functional unit When product are sold or use, can be stored in a computer read/write memory medium.Based on so Understanding, part that prior art is contributed by technical scheme the most in other words or Completely or partially can embodying with the form of software product of this technical scheme of person, this computer Software product is stored in a storage medium, including some instructions with so that a computer sets Standby (can be personal computer, server, or the network equipment etc.) or processor (processor) Perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage is situated between Matter includes: USB flash disk, portable hard drive, read only memory (ROM, Read-Only Memory), Random access memory (RAM, Random Access Memory), magnetic disc or CD etc. are each Plant the medium that can store program code.

The foregoing is only embodiments of the present invention, not thereby limit the patent model of the present invention Enclosing, every equivalent structure utilizing description of the invention and accompanying drawing content to be made or equivalence flow process become Change, or be directly or indirectly used in other relevant technical fields, be the most in like manner included in the present invention's In scope of patent protection.

Claims (10)

1. the method reducing power consumption, it is characterised in that be applied to an electronic equipment, described side Method includes:

Obtain the battery electric quantity of described electronic equipment and/or residing battery saving mode；

The service behaviour of the communication device of described electronic equipment is adjusted to described battery electric quantity and/ Or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, described electricity The service behaviour of the communication device of subset is adjusted so as to the lowest.

Method the most according to claim 1, it is characterised in that characterize described service behaviour Parameter includes that communication linkage parameter, described method include:

Described battery electric quantity, described battery saving mode and described communication linkage parameter are respectively divided identical Or the grade of varying number；

Obtain grade and/or the grade of residing battery saving mode of described battery electric quantity；

The grade Auto-matching utilizing the grade of described battery electric quantity and/or residing battery saving mode is same Grade or different grades of described communication linkage parameter.

Method the most according to claim 2, it is characterised in that described by described battery electric quantity, Described battery saving mode is respectively divided the grade of identical or different quantity and includes:

The battery electric quantity of described electronic equipment is divided n from big to small according to electricity size individual different Grade so that the 1st battery electric quantity is maximum, the n-th battery electric quantity is minimum；

Described battery saving mode is divided n different grade according to the size of power saving degree so that the The power saving degree of 1 battery saving mode is minimum, and the power saving degree of the n-th battery saving mode is maximum；

Wherein, n is positive integer.

Method the most according to claim 3, it is characterised in that described communication device is bluetooth Element, described communication linkage parameter includes connecting spacing parameter, from machine delay parameter and link time-out Time parameter, the described grade that described communication linkage parameter divides identical or different quantity includes:

Described connection spacing parameter is divided n different grade according to time length so that the 1st The numerical value connecting spacing parameter is minimum, and n-th connects the numerical value maximum of spacing parameter；

N different grade is divided from machine delay parameter so that the 1st from machine delay parameter by described Numerical value minimum, n-th is maximum from the numerical value of machine delay parameter；

Described link time-out time parameter is divided n different grade according to time length so that The numerical value of the 1st link time-out time parameter is maximum, and n-th connects the numerical value minimum of time-out time parameter, And the link time-out time parameter of same grade is joined with from machine time delay more than connecting spacing parameter Count the product after adding.

Method the most according to claim 4, it is characterised in that described utilize described battery electricity The grade of amount and/or the same grade of grade Auto-matching of residing battery saving mode or different grades of institute State communication linkage parameter to include:

The grade Auto-matching utilizing the grade of described battery electric quantity and/or residing battery saving mode is same The connection spacing parameter of grade, from machine delay parameter and link time-out time parameter.

Method the most according to claim 4, it is characterised in that

In described n different grade, the connection spacing parameter of each grade is the integer of 1.25ms Times, the numerical range of described connection spacing parameter is 7.5-4000ms.

Method the most according to claim 4, it is characterised in that

The numerical range from machine delay parameter of described n different grade is 0-499.

Method the most according to claim 4, it is characterised in that

The numerical range of the link time-out time parameter of described n different grade is 100-32000ms。

Method the most according to claim 2, it is characterised in that the described residing province of described acquisition The grade of power mode includes:

Obtain the battery saving mode being in a certain grade of user's manual configuration；Or

Battery saving mode by the same grade of grade Auto-matching of described battery electric quantity.

10. an electronic equipment, it is characterised in that described electronic equipment includes:

Detector unit, described detector unit is for obtaining battery electric quantity and/or the institute of described electronic equipment Place's battery saving mode；

Adjustment unit, the service behaviour of the communication device of described electronic equipment is adjusted to described electricity Pond electricity and/or the degree of residing battery saving mode coupling, battery electric quantity is the least, battery saving mode more power saving, The service behaviour of the communication device of described electronic equipment is adjusted so as to the lowest.