CN103837835B - A kind of mobile equipment cell container decline degree detecting method and device thereof - Google Patents

Abstract

The embodiment of the invention discloses a kind of mobile equipment cell container decline degree detecting method, comprising: when detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record initial quantity of electricity running parameter X₁; By X₁It is set as electric quantity change parameter and standard value; Follow-up when detecting that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5 Utilize X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value. Compared with prior art, it is not necessary to take out battery, then determine mobile equipment cell container decline degree by test capacity, not only convenient but also save cost.

Description

A kind of mobile equipment cell container decline degree detecting method and device thereof

Technical field

The present invention relates to field of mobile equipment, in particular to a kind of mobile equipment cell container decline degree detecting method and device thereof.

Background technology

The mobile equipment of great majority all adopts lithium cell to provide the energy now, and lithium cell dispatches from the factory and has fixing capacity, such as 1000mAh etc., and along with the growth of duration of service, battery can be aging gradually after repeatedly charging, discharging, and cell container can decline thereupon. Moreover, some are use-pattern improperly, and such as, excessively long-time is placed on charger by battery or battery is placed in high temperature, damp and hot environment, and cell container decline degree also can be made to accelerate. Aging battery not only affects use, and there is potential safety hazard.

But, user in use often can not note the decline of cell container, only when capacity drops to very low, it may also be useful to just can cause the attention of user time the time becomes very short.

In the prior art, can only by battery be taken out from mobile equipment, then the method testing cell container is to determine the decline degree of cell container. This kind of method needs user to detect to special maintenance agency, and undertakes corresponding testing cost, not only inconvenient, and adds the use cost of user.

Summary of the invention

The object of the embodiment of the present invention is to provide a kind of mobile equipment cell container decline degree detecting method and the device thereof that can show battery electricity decline degree on the mobile apparatus directly to user.

For achieving the above object, the embodiment of the invention discloses a kind of mobile equipment cell container decline degree detecting method and device thereof. Technical scheme is as follows:

A kind of mobile equipment cell container decline degree detecting method, comprising:

When detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record initial quantity of electricity running parameter X₁;

By X₁It is set as electric quantity change parameter and standard value;

Follow-up when detecting that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5

Utilize X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value;

Wherein, the unidirectional change state of described electricity comprises: charging state or discharge condition;

When the unidirectional change state of described electricity is charging state, described electric quantity change parameter X_nFor charge parameter X_{Fill n}, X_{Fill n}Represent: when detecting that mobile equipment is in charging state and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent being charged in the unit time, wherein n=1,2,3,4,5

When the unidirectional change state of described electricity is discharge condition, described electric quantity change parameter X_nFor discharge parameter X_{Put n}, X_{Put n}Represent: when detecting that mobile equipment is in discharge condition and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent of unit time internal consumption, wherein n=1,2,3,4,5 ...

In the preferred embodiment of the present invention, described default low power consumpting state is screen lock state.

In the preferred embodiment of the present invention, described default low power consumpting state is dormant state.

In the preferred embodiment of the present invention, described method comprises further: when detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, records in now mobile equipment the software run;

Follow-up when detecting that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time, record in now mobile equipment the software run;

Utilizing X_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, comprise further: judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment;

When judged result is not identical, by X_nIt is set as electric quantity change parameter and standard value.

In the preferred embodiment of the present invention, described method comprises further: when detecting that mobile equipment battery is in the unidirectional change state of electricity first, reminds user to make mobile equipment be in dormant state.

In the preferred embodiment of the present invention, X is being utilized_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, comprise further: by described electric quantity change parameter and standard value and X_nIt is uploaded to network side respectively.

In the preferred embodiment of the present invention, after the decline degree obtaining mobile equipment cell container, the method comprises further:

According to the decline degree obtained, generate information and export to user.

In the preferred embodiment of the present invention, after the decline degree obtaining mobile equipment cell container, comprise further:

Described decline degree and the threshold value preset are compared, if described decline degree is greater than predetermined threshold value, then generates information and export to user.

Wherein, described information comprises: for pointing out the information of cell degradation, and/or the information changing battery for pointing out.

Present invention also offers a kind of mobile equipment cell container decline degree detection device, comprising: electric quantity change reference record module, parameter and standard value setting module and calculating module;

When described electric quantity change reference record module is used for detecting first that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state, record initial quantity of electricity running parameter X₁;

Described parameter and standard value setting module is used for X₁It is set as electric quantity change parameter and standard value;

Described electric quantity change reference record module also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5

Described calculating module is used for utilizing X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value;

Wherein, the unidirectional change state of described electricity comprises: charging state or discharge condition;

When the unidirectional change state of described electricity is charging state, described electric quantity change parameter X_nFor charge parameter X_{Fill n}, X_{Fill n}Represent: when detecting that mobile equipment is in charging state and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent being charged in the unit time, wherein n=1,2,3,4,5

When the unidirectional change state of described electricity is discharge condition, described electric quantity change parameter X_nFor discharge parameter X_{Put n}, X_{Put n}Represent: when detecting that mobile equipment is in discharge condition and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent of unit time internal consumption, wherein n=1,2,3,4,5 ...

In the preferred embodiment of the present invention, described default low power consumpting state is screen lock state.

In the preferred embodiment of the present invention, described default low power consumpting state is dormant state.

In the preferred embodiment of the present invention, this device comprises further: operating software record module, during for detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record in now mobile equipment the software run;

Also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, record in now mobile equipment the software run;

Described parameter and standard value setting module is also for utilizing X_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter before, judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment,

When judged result is not identical, by X_nIt is set as electric quantity change parameter and standard value.

In the preferred embodiment of the present invention, this device comprises further: dormant state prompting module, during for detecting that mobile equipment battery is in the unidirectional change state of electricity first, reminds user to make mobile equipment be in dormant state.

In the preferred embodiment of the present invention, this device comprises further: communication module, for utilizing X in calculating module_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, by described electric quantity change parameter and standard value and X_nIt is uploaded to network side respectively.

In the preferred embodiment of the present invention, this device comprises further: notification module, for after the decline degree obtaining mobile equipment cell container, according to the decline degree obtained, generates information and exports to user.

In the preferred embodiment of the present invention, this device comprises further: cell container decline degree comparison module and notification module; Described cell container decline degree comparison module is used for described decline degree and the threshold value preset being compared after the decline degree obtaining mobile equipment cell container, if described decline degree is greater than predetermined threshold value, then triggers described notification module and export information to user.

Wherein, described information comprises: for pointing out the information of cell degradation, and/or the information changing battery for pointing out.

The present invention utilizes the duration of charging of mobile equipment battery and discharge time to detect mobile equipment cell container decline degree, and can directly be shown to user on the mobile apparatus. Compared with prior art, it is not necessary to take out battery, then determine mobile equipment cell container decline degree by test capacity, not only convenient but also save cost.

Accompanying drawing explanation

In order to be illustrated more clearly in the embodiment of the present invention or technical scheme of the prior art, it is 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 some embodiments of the present invention, for those of ordinary skill in the art, under the prerequisite not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the schema of a kind of mobile equipment cell container decline degree detecting method of the present invention;

Fig. 2 is the schema of the first preferred implementation of a kind of mobile equipment cell container decline degree detecting method of the present invention;

Fig. 3 is the schema of the 2nd kind of preferred implementation of the third mobile equipment cell container of the present invention decline degree detecting method;

Fig. 4 is the schema of the third preferred implementation of a kind of mobile equipment cell container decline degree detecting method of the present invention;

Fig. 5 is the schema of the 4th kind of preferred implementation of a kind of mobile equipment cell container decline degree detecting method of the present invention;

Fig. 6 is the schematic diagram of a kind of mobile equipment cell container decline degree detection device of the present invention;

Fig. 7 is the schematic diagram of the first preferred implementation of a kind of mobile equipment cell container decline degree detection device of the present invention;

Fig. 8 is the schematic diagram of the 2nd kind of preferred implementation of a kind of mobile equipment cell container decline degree detection device of the present invention;

Fig. 9 is the schematic diagram of the third preferred implementation of a kind of mobile equipment cell container decline degree detection device of the present invention;

Figure 10 is the schematic diagram of the 4th kind of preferred implementation of a kind of mobile equipment cell container decline degree detection device of the present invention;

Figure 11 is the schematic diagram of the 5th kind of preferred implementation of a kind of mobile equipment cell container decline degree detection device of the present invention.

Embodiment

Below in conjunction with the accompanying drawing in the embodiment of the present invention, the technical scheme in the embodiment of the present invention is clearly and completely described, it is clear that 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 other embodiments all obtained under creative work prerequisite, belong to the scope of protection of the invention.

The executive agent of a kind of mobile equipment cell container decline degree detecting method of the present invention, it can be a mobile equipment cell container decline degree detection device, this device can be an independent function entity, it can also be the function module being installed in mobile equipment, mobile equipment mentioned here, referring generally to tentacle machine, notebook computer, panel computer etc., its specific form the present invention do not need to limit.

Below in conjunction with Fig. 1, decline degree detection device as executive agent taking the cell container being installed in mobile phone, the technical scheme of the present invention is described in detail.

S101, record initial quantity of electricity running parameter.

When user uses mobile phone, when cell phone battery capacity decline degree detection device detects that battery of mobile phone is in the unidirectional change state of electricity and mobile phone is in default low power consumpting state first, record initial quantity of electricity running parameter X₁;

Battery mentioned here is in the unidirectional change state of electricity, refers to battery ever-increasing state of electricity when charging, or battery is when not charging, the state that electricity constantly consumes.

Default low power consumpting state mentioned here, refer to a kind of state that mobile phone power consumption is lower, such as, the screen lock status of mobile phone, in this state, user does not use mobile phone to carry out the operation communicated, amusement equipower consumption is higher, the watt consumption that only mobile phone maintenance itself normally runs, the watt consumption of the software that the watt consumption of such as mobile phone CPU and some backstages are being run, such as, when we log in QQ software on mobile phone, even if in screen lock status, QQ software is still in operation, and this itself also can exist watt consumption. Under this kind of low power consumpting state, battery power consumption is lower, and when mobile phone is in this kind of low power consumpting state every time, the consumption of electricity is similar.

Initial quantity of electricity running parameter mentioned here can be initial charge parameter X_{Fill n}, it is also possible to it is initial discharge parameter X_{Put 1}; Wherein, X_{Fill 1}During for detecting that mobile phone is in charging state and mobile phone is in default low power consumpting state first, the electricity per-cent being charged in the unit time; X_{Put 1}During for detecting that mobile phone is in discharge condition and mobile phone is in default low power consumpting state first, the electricity per-cent of unit time internal consumption.

Below with initial charge parameter X_{Fill 1}For example, electric quantity change determination method for parameter is described.

When cell phone battery capacity decline degree detection device detects that mobile phone is in charging state and mobile phone is in default low power consumpting state first, such as, when shielding lock status, record current time and current battery electricity per-cent, such as, current time is 6:00, and current battery electricity per-cent is 30%.

When cell phone battery capacity decline degree detection device detects that mobile phone charging complete or user stop charging or mobile phone state change, record time now and battery electricity per-cent now, such as, mobile phone charging complete detected, record time 12:00 now, battery electricity per-cent now is 100%.

Then, by the difference of electricity per-cent of twice record compared with the difference of the time of record, initial charge parameter X is obtained_{Fill 1}, and record initial charge parameter X_{Fill 1}��

X_{Fill 1}Concrete method of calculation be: X_{Fill 1}=(100%-40%)/(12:00-6:00)=10%/per hour.

Certainly, electric quantity change determination method for parameter, in addition to the above methods; also may there is other method, it will be appreciated that every method that can obtain electric quantity change parameter of the present invention; all within protection scope of the present invention, its specific form the present invention do not need to limit.

In this step, it is possible to have two kinds of enforcement modes.

The first enforcement mode is when cell phone battery capacity decline degree detection device detects that mobile phone is inserted power source charges by user first, and mobile phone is in the state of screen lock, record initial charge parameter X_{Fill 1};

2nd kind of enforcement mode is when cell phone battery capacity decline degree detection device detects that mobile phone is in discharge condition first, and mobile phone is in the state of screen lock, records initial discharge parameter X_{Put 1};

S102, by X₁It is set as electric quantity change parameter and standard value.

Implementing mode for two kinds of corresponding S101, also there are two kinds of corresponding enforcement modes in this step.

As cell phone battery capacity decline degree detection device record initial charge parameter X_{Fill 1}After, by X_{Fill 1}It is set as charge parameter standard value.

As the cell phone battery capacity decline initial discharge parameter X of degree detection device record_{Put 1}After, by X_{Put 1}It is set as discharge parameter standard value.

S103, record electric quantity change parameter X_n��

Electric quantity change parameter X mentioned here_nComprise charge parameter X_{Fill n}, and discharge parameter X_{Put n}; Wherein, n=2,3,4,5 X_{Fill n}For cell phone battery capacity decline degree detection device detect that mobile phone is in charging state and mobile phone is in screen lock status for n-th time time, the electricity per-cent being charged in the unit time; X_{Put n}When being detect that mobile phone is in discharge condition and mobile phone is in screen lock status for n-th time, the electricity per-cent of unit time internal consumption.

Implementing mode for two kinds of corresponding S101, also there are two kinds of corresponding enforcement modes in this step.

The first enforcement mode is as cell phone battery capacity decline degree detection device record initial charge parameter X_{Fill 1}After, continue whether detection user inserts power source charges by mobile phone, and mobile phone is in the state of screen lock. When second time detects that mobile phone is inserted power source charges by user, and when mobile phone is in the state that screen is locked, so cell container decline degree detection device can record charge volume parameter X_{Fill 2}��

2nd kind of enforcement mode is as the cell container decline initial discharge parameter X of degree detection device record_{Put 1}After, continue detection of handset and it is in discharge condition, and mobile phone is in the state of screen lock. When second time detects that mobile phone is in discharge condition, and when mobile phone is in the state that screen is locked, so cell container decline degree detection device can record discharge parameter X_{Put 2}��

Below with charge parameter X_{Fill 2}For example, this step is specifically described.

When cell phone battery capacity decline degree detection device detect that mobile phone is in charging state and mobile phone is in the state of screen lock for the 2nd time time, record current time and current battery electricity per-cent, such as, current time is 7:00, and current battery electricity per-cent is 20%.

When cell phone battery capacity decline degree detection device detects mobile phone charging complete, record time 10:00 now, battery electricity per-cent now is 100%.

Then, by the difference of electricity per-cent of twice record compared with the difference of the time of record, second time charge parameter X is obtained_{Fill 2}, and record initial charge parameter X_{Fill 2}��

X_{Fill 2}Concrete method of calculation be: X_{Fill 2}=(100%-20%)/(10:00-7:00)=27%/per hour.

S104, utilizes X_nThe decline degree of cell phone battery capacity is calculated with electric quantity change parameter and standard value.

Implementing mode for two kinds of corresponding S101, also there are two kinds of enforcement modes in this step.

The first enforcement mode utilizes X_{Fill n}The decline degree of cell phone battery capacity is calculated with charge parameter standard value.

2nd kind of enforcement mode utilizes X_{Put n}The decline degree of cell phone battery capacity is calculated with discharge parameter standard value.

Implement mode for the first below, this step is described in detail.

In step S101, have recorded initial charge parameter X_{Fill 1}, its value is 10%/per hour, and in step s 102, by X_{Fill 1}It is set as charge parameter standard value. In step s 103, have recorded charge parameter X_{Fill 2}, its value is 28%/per hour. Owing to the actual electricity being filled with battery per hour is identical, so cell container is more big, charge parameter is more little.

Utilize X_{Fill 2}Calculate with charge parameter standard value, it be specially:

By charge parameter standard value and X_{Fill 2}Being divided by, such as (10%/per hour)/(28%/per hour)=36%, its business is worth when representing that second time detects, when cell container is first time detection the 36% of cell container.

Charge parameter standard value and X can also be subtracted further with 100%_{Fill 2}The business be divided by and obtain, such as 1-36%=64%, cell container when representing second time detection, compared with cell container during first time detection, have dropped 64%.

Certainly, utilize X_{Fill n}The decline degree of mobile equipment cell container is calculated, in addition to the above methods, it is also possible to have other method, such as: utilize X with charge parameter standard value_{Fill 2}Calculate with charge parameter standard value and can also be:

According to charge parameter standard value and X_{Fill 2}, when obtaining first time detection respectively, reach the time needed for 100% with battery electricity per-cent during second time detection. Such as, when during first time detection, battery electricity per-cent reaches 100%, the required time is 10 hours, and when during second time detection, battery electricity per-cent reaches 100%, the required time is 3.6 hours.

Owing to duration of charging and cell container are proportional relations, it is divided by so the time needed for 100% that reached by battery electricity per-cent during second time detection reaches the time needed for 100% with battery electricity per-cent during first time detection, such as 3.6/10=36%, business is worth 36% of cell container when cell container when representing second time detection detects first time.

Battery fully charged required time and the business that during first time detection, the battery fully charged required time is divided by and obtains when can also subtract second time detection with 100% further, such as 1-36%=64%,

Cell container when representing second time detection, compared with cell container during first time detection, have dropped 64%.

It should be noted that, every utilize X_{Fill n}Calculating the method for mobile equipment cell container decline degree with charge parameter standard value, all within protection scope of the present invention, its specific form is not construed as limiting the invention.

Utilize X₂Calculate the decline degree of cell phone battery capacity with electric quantity change parameter and standard value after, circulation performs S103-S104, constantly obtains the decline degree of cell phone battery capacity.

It should be noted that, in the inventive solutions, it is only necessary to adopt the first enforcement mode, namely by record X_{Fill n}And itself and charge parameter standard value are calculated, so that it may to obtain the decline degree of cell phone battery capacity;

Equally, also only need to adopt the 2nd kind of enforcement mode, by record X_{Put n}And itself and discharge parameter standard value are calculated, it is also possible to obtain the decline degree of cell phone battery capacity;

Certainly, two schemes can also exist simultaneously, that is:

When cell phone battery capacity decline degree detection device detects that mobile phone is in charging state, record X_{Fill n}, the decline degree of cell phone battery capacity is then obtained according to it;

When cell phone battery capacity decline degree detection device detects that mobile phone is in discharge condition, record X_{Put n}, the decline degree of cell phone battery capacity is then obtained according to it.

Concrete which kind of embodiment of employing, those skilled in the art can determine according to practical situation, is not construed as limiting here.

In the preferred embodiment of the present invention, the described low power consumpting state preset is dormant state, and dormant state is compared with screen lock status, watt consumption is lower, and when mobile phone is in this kind of low power consumpting state, the consumption of electricity is identical, so utilizing X in this state every time_nThe decline degree calculating cell phone battery capacity with electric quantity change parameter and standard value is more accurate.

In the preferred embodiment of the present invention, as shown in Figure 2, in step S101, except record initial quantity of electricity running parameter, the software run also is recorded in now mobile phone.

In step s 103, except record electric quantity change parameter X_nOutward, the software run also is recorded in now mobile phone.

After performing S103, perform S103a, judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment;

When judged result is identical, performs S104, utilize X_nThe decline degree of cell phone battery capacity is calculated with electric quantity change parameter and standard value.

When judged result is not identical, perform S104a, by X_nIt is set as electric quantity change parameter and standard value.

After executing S104 or S104a, circulation performs S103-S104 or S103-S104a.

In the preferred embodiment, if recording electric quantity change parameter X_nThe software run in mobile phone when the software run in Shi Shouji and record electric quantity change parameter and standard value is not identical, owing to the power of different software consumes may differ greatly, the watt consumption of mobile phone during twice record is caused to differ greatly, when mobile phone power consumption differs greatly, comparatively speaking, error is bigger for the cell container decline degree that electric quantity change parameter according to record is calculated. So in order to reduce by this kind of error, as record electric quantity change parameter X_nWhen the software run in mobile phone when the software run in Shi Shouji and record electric quantity change parameter and standard value is not identical, do not utilize X_nThe decline degree of cell phone battery capacity is calculated with electric quantity change parameter and standard value, but by X_nIt is set as electric quantity change parameter and standard value, and continues detection. If record X_n+1The software run in Shi Shouji and record X_nThe software run in Shi Shouji is identical, then recycle X_n+1The decline degree of cell phone battery capacity is calculated with electric quantity change parameter and standard value.

In the preferred embodiment of the present invention, when cell phone battery capacity decline degree detection device detect that battery of mobile phone is in the unidirectional change state of electricity first time, remind user to make mobile equipment be in dormant state.

Said in the preferred embodiment of the present invention, the cell container decline degree that mobile phone obtains when dormant state is more accurate, so when cell phone battery capacity decline degree detection device detects that battery of mobile phone is in charge or discharge state first, reminding user to make mobile equipment be in dormant state. Prompting mode can be represent Word message to user on screen, such as " please don't use mobile phone in charging, to ensure that mobile phone enters dormant state " etc.; If mobile phone is provided with a button making mobile phone enter dormant state, representing Word message to user can also be, " please by dormancy button, make mobile phone enter dormant state ". Can also be that voice is reminded, such as, above-mentioned Word message is converted into sound information and be presented to user.

It should be noted that, its specific form, all within protection scope of the present invention, is not needed to limit by every mode that user can be reminded to make mobile equipment be in dormant state.

In one embodiment of the invention, as shown in Figure 3, after execution S102 obtains electric quantity change parameter and standard value, perform S102a, electric quantity change parameter and standard value is uploaded to network side; Electric quantity change parameter X is recorded at execution S103_nAfter, perform S103b, by X_nIt is uploaded to network side.

It should be appreciated that electric quantity change parameter X can also be recorded at execution S103_nAfter, by electric quantity change parameter and standard value and electric quantity change parameter X_nIt is uploaded to network side together.

Owing to the storer of mobile phone is all smaller, the benefit of this preferred implementation is that the data that will every time not record all are stored in the local storer of mobile phone, saves the storage space of mobile phone. Moreover, it is also possible to prevent due to misoperation, such as, the data loss that mobile phone recovery is dispatched from the factory and arranged and cause by user.

In another embodiment of the invention, as shown in Figure 4, obtain the decline degree of cell phone battery capacity at execution S104 after, continue to perform S105, according to the decline degree obtained, generate information and also export to user.

Wherein, information for exporting to user can be Word message, it is also possible to be sound information. Such as, it is possible to be to user's output character information " current cell container has declined 64% " on screen, it is also possible to above-mentioned Word message is converted into sound information and reports to user.

It should be noted that, every user being made to make the form knowing the information of the decline degree of current cell container all within protection scope of the present invention, its specific form can not be construed as limiting the invention.

After performing S105, circulation performs S103-S105.

In the preferred embodiment of the present invention, as shown in Figure 5, first threshold value can be set in advance, after performing S104, perform S104b, judge cell container decline degree whether be greater than the first threshold value, if words, perform S105, export information " battery is aging " or " needing to change battery " to user. The size of the first described threshold value can be determined according to practical situation by those skilled in the art. Concrete restriction is not done here.

It is understandable that, the first threshold value and Second Threshold can also be set respectively in advance, Second Threshold is greater than the first threshold value, after obtaining cell container decline degree, the degree that the cell container obtained declined and the first threshold value compare, if cell container decline degree is greater than the first threshold value, then compare with Second Threshold again, if cell container decline journey is greater than Second Threshold, then the information " needing to change battery " exported to user; If cell container decline degree is greater than the first threshold value but is less than Second Threshold, then the information " battery is aging " exported to user.

If cell container decline degree is less than the first threshold value, then the information exported directly to user is the degree of cell container decline.

It should be noted that, various embodiments of the present invention, namely can implement separately, it is also possible to combination is implemented, and its embodiment is determined according to practical situation by those skilled in the art.

Corresponding to embodiment of the method above, present invention also offers a kind of mobile equipment cell container decline degree detection device, as shown in Figure 6, comprising:

Electric quantity change reference record module 101, parameter and standard value setting module 201 and calculating module 301;

Described electric quantity change reference record module 101 for mobile equipment battery being detected first and be in the unidirectional change state of electricity and when mobile equipment is in default low power consumpting state, record initial quantity of electricity running parameter X₁;

Described parameter and standard value setting module 201 is for by X₁It is set as electric quantity change parameter and standard value;

Described electric quantity change reference record module 101 also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5

Described calculating module 301 is for utilizing X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value;

Wherein, the unidirectional change state of described electricity comprises: charging state or discharge condition;

When the unidirectional change state of described electricity is charging state, described electric quantity change parameter X_nFor charge parameter X_{Fill n}, X_{Fill n}Represent: when detecting that mobile equipment is in charging state and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent being charged in the unit time, wherein n=1,2,3,4,5

When the unidirectional change state of described electricity is discharge condition, described electric quantity change parameter X_nFor discharge parameter X_{Put n}, X_{Put n}Represent: when detecting that mobile equipment is in discharge condition and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent of unit time internal consumption, wherein n=1,2,3,4,5 ...

In the preferred embodiment of the present invention, described default low power consumpting state is screen lock state.

In the preferred embodiment of the present invention, described default low power consumpting state is dormant state.

In the preferred embodiment of the present invention, this device also comprises software records module 101a, as shown in Figure 7, when software records module 101a is used for detecting first that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state, record in now mobile equipment the software run;

Also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, record in now mobile equipment the software run;

Parameter and standard value setting module 102 is also for utilizing X in calculating module 301_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment,

When judged result is not identical, by X_nIt is set as electric quantity change parameter and standard value.

In the preferred embodiment of the present invention, this device also comprises dormant state prompting module 101b, as shown in Figure 8, during for detecting that mobile equipment battery is in the unidirectional change state of electricity first, reminds user to make mobile equipment be in dormant state.

In the preferred embodiment of the present invention, this device also comprises communication module 301a, as shown in Figure 9, for utilizing X in calculating module 301_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, by described electric quantity change parameter and standard value and X_nIt is uploaded to network side respectively.

In the preferred embodiment of the present invention, this device also comprises notification module 401, as shown in Figure 10, for after the decline degree obtaining mobile equipment cell container, according to the decline degree obtained, generates information and exports to user.

In the preferred embodiment of the present invention, this device also comprises cell container decline degree comparison module 401a and notification module 401, as shown in figure 11, cell container decline degree comparison module 401a is used for comparing described decline degree and the threshold value preset, if described decline degree is greater than predetermined threshold value, then trigger notice module 401 exports information to user. Described information comprises: for pointing out the information of cell degradation, and/or the information changing battery for pointing out.

It should be noted that, the molten amount decline degree comparison module 401a of software records module 101a in each preferred implementation of the present invention, dormant state prompting module 101b, communication module 301a, notification module 401, battery, can also all or part of be present in mobile equipment cell container decline degree detection device, those skilled in the art can determine according to practical situation, is not construed as limiting here.

For device or system embodiment, owing to it is substantially similar to embodiment of the method, so describing fairly simple, relevant part illustrates see the part of embodiment of the method. Apparatus and system embodiment described above is only schematic, the wherein said unit illustrated as separating component or can may not be and physically separates, parts as unit display can be or may not be physical location, namely can be positioned at a place, or can also be distributed on multiple NE. Some or all of module wherein can be selected according to the actual needs to realize the object of the present embodiment scheme. Those of ordinary skill in the art, when not paying creative work, are namely appreciated that and implement.

The above is only the specific embodiment of the present invention; it is noted that for those skilled in the art, under the premise without departing from the principles of the invention; can also making some improvements and modifications, these improvements and modifications also should be considered as protection scope of the present invention.

Claims (18)

1. a mobile equipment cell container decline degree detecting method, it is characterised in that, comprising:

When detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record initial quantity of electricity running parameter X₁;

By X₁It is set as electric quantity change parameter and standard value;

Follow-up when detecting that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5

Utilize X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value;

Wherein, the unidirectional change state of described electricity comprises: charging state or discharge condition;

When the unidirectional change state of described electricity is charging state, described electric quantity change parameter X_nFor charge parameter X_{Fill n}, X_{Fill n}Represent: when detecting that mobile equipment is in charging state and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent being charged in the unit time, wherein n=1,2,3,4,5

When the unidirectional change state of described electricity is discharge condition, described electric quantity change parameter X_nFor discharge parameter X_{Put n}, X_{Put n}Represent: when detecting that mobile equipment is in discharge condition and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent of unit time internal consumption, wherein n=1,2,3,4,5 ...

2. the method for claim 1, it is characterised in that, described default low power consumpting state is screen lock state.

3. the method for claim 1, it is characterised in that, described default low power consumpting state is dormant state.

4. the method for claim 1, it is characterised in that, comprise further: when detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record in now mobile equipment the software run;

Follow-up when detecting that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time, record in now mobile equipment the software run;

Utilizing X_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, comprise further: judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment;

When judged result is not identical, by X_nIt is set as electric quantity change parameter and standard value.

5. the method for claim 1, it is characterised in that, comprise further: when detecting that mobile equipment battery is in the unidirectional change state of electricity first, remind user to make mobile equipment be in dormant state.

6. such as method as described in any one in claim 1-5, it is characterised in that, utilizing X_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, comprise further: by described electric quantity change parameter and standard value and X_nIt is uploaded to network side respectively.

7. the method for claim 1, it is characterised in that, after the decline degree obtaining mobile equipment cell container, comprise further:

According to the decline degree obtained, generate information and export to user.

8. the method for claim 1, it is characterised in that, after the decline degree obtaining mobile equipment cell container, comprise further:

Described decline degree and the threshold value preset are compared, if described decline degree is greater than predetermined threshold value, then generates information and export to user.

9. method as claimed in claim 8, it is characterised in that, described information comprises: for pointing out the information of cell degradation, and/or the information changing battery for pointing out.

10. a mobile equipment cell container decline degree detection device, it is characterised in that, comprising: electric quantity change reference record module, parameter and standard value setting module and calculating module;

When described electric quantity change reference record module is used for detecting first that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state, record initial quantity of electricity running parameter X₁;

Described parameter and standard value setting module is used for X₁It is set as electric quantity change parameter and standard value;

Described electric quantity change reference record module also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, the electric quantity change parameter X that all record is corresponding with this change state_n, wherein, n=2,3,4,5

Described calculating module is used for utilizing X_nThe decline degree of mobile equipment cell container is calculated with electric quantity change parameter and standard value;

Wherein, the unidirectional change state of described electricity comprises: charging state or discharge condition;

When the unidirectional change state of described electricity is charging state, described electric quantity change parameter X_nFor charge parameter X_{Fill n}, X_{Fill n}Represent: when detecting that mobile equipment is in charging state and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent being charged in the unit time, wherein n=1,2,3,4,5

When the unidirectional change state of described electricity is discharge condition, described electric quantity change parameter X_nFor discharge parameter X_{Put n}, X_{Put n}Represent: when detecting that mobile equipment is in discharge condition and mobile equipment is in default low power consumpting state for n-th time, the electricity per-cent of unit time internal consumption, wherein n=1,2,3,4,5 ...

11. devices as claimed in claim 10, it is characterised in that, described default low power consumpting state is screen lock state.

12. devices as claimed in claim 10, it is characterised in that, described default low power consumpting state is dormant state.

13. devices as claimed in claim 10, it is characterized in that, comprise further: operating software record module, during for detecting that mobile equipment battery is in the unidirectional change state of electricity and mobile equipment is in default low power consumpting state first, record in now mobile equipment the software run;

Also for follow-up detect that mobile equipment battery is in the unidirectional change state of described electricity and mobile equipment is in default low power consumpting state every time time, record in now mobile equipment the software run;

Described parameter and standard value setting module is also for utilizing X_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter before, judge record X_nWhether the software run in move equipment is identical with the software that running in record electric quantity change parameter and standard value move equipment,

When judged result is not identical, by X_nIt is set as electric quantity change parameter and standard value.

14. devices as claimed in claim 10, it is characterised in that, comprise further: dormant state prompting module, during for detecting that mobile equipment battery is in the unidirectional change state of electricity first, remind user to make mobile equipment be in dormant state.

15. such as device as described in any one in claim 10-14, it is characterised in that, comprise further: communication module, for utilizing X in calculating module_nCalculate the decline degree of mobile equipment cell container with electric quantity change parameter and standard value before, by described electric quantity change parameter and standard value and X_nIt is uploaded to network side respectively.

16. devices as claimed in claim 10, it is characterised in that, comprise notification module further, for after the decline degree obtaining mobile equipment cell container, according to the decline degree obtained, generate information and export to user.

17. devices as claimed in claim 10, it is characterised in that, comprise further: cell container decline degree comparison module and notification module; Described cell container decline degree comparison module is used for described decline degree and the threshold value preset being compared after the decline degree obtaining mobile equipment cell container, if described decline degree is greater than predetermined threshold value, then triggers described notification module and export information to user.

18. devices as claimed in claim 17, it is characterised in that, described information comprises: for pointing out the information of cell degradation, and/or the information changing battery for pointing out.