CN105721687A - Battery abnormity detection method and system based on mobile terminal - Google Patents

Battery abnormity detection method and system based on mobile terminal Download PDF

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Publication number
CN105721687A
CN105721687A CN201610047450.5A CN201610047450A CN105721687A CN 105721687 A CN105721687 A CN 105721687A CN 201610047450 A CN201610047450 A CN 201610047450A CN 105721687 A CN105721687 A CN 105721687A
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mobile terminal
time
battery
standby
electricity
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CN201610047450.5A
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CN105721687B (en
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杨维琴
俞斌
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SHENZHEN DESN SOFTWARE CO.,LTD.
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Huizhou TCL Mobile Communication Co Ltd
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    • HELECTRICITY
    • H04ELECTRIC COMMUNICATION TECHNIQUE
    • H04MTELEPHONIC COMMUNICATION
    • H04M1/00Substation equipment, e.g. for use by subscribers
    • H04M1/72Mobile telephones; Cordless telephones, i.e. devices for establishing wireless links to base stations without route selection
    • H04M1/724User interfaces specially adapted for cordless or mobile telephones
    • H04M1/72403User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality
    • H04M1/72418User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality for supporting emergency services
    • H04M1/72421User interfaces specially adapted for cordless or mobile telephones with means for local support of applications that increase the functionality for supporting emergency services with automatic activation of emergency service functions, e.g. upon sensing an alarm
    • GPHYSICS
    • G01MEASURING; TESTING
    • G01RMEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
    • G01R31/00Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
    • G01R31/36Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02DCLIMATE CHANGE MITIGATION TECHNOLOGIES IN INFORMATION AND COMMUNICATION TECHNOLOGIES [ICT], I.E. INFORMATION AND COMMUNICATION TECHNOLOGIES AIMING AT THE REDUCTION OF THEIR OWN ENERGY USE
    • Y02D30/00Reducing energy consumption in communication networks
    • Y02D30/70Reducing energy consumption in communication networks in wireless communication networks

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  • Engineering & Computer Science (AREA)
  • Business, Economics & Management (AREA)
  • Emergency Management (AREA)
  • Physics & Mathematics (AREA)
  • General Physics & Mathematics (AREA)
  • Human Computer Interaction (AREA)
  • Computer Networks & Wireless Communication (AREA)
  • Signal Processing (AREA)
  • Telephone Function (AREA)

Abstract

The invention discloses a battery abnormity detection method and system based on a mobile terminal.The battery abnormity detection method comprises the steps that S1, average unit time power consumptions in a flight mode standby state and an ordinary standby state are stored in the mobile terminal and are respectively set as flight standby average power consumption K1 and ordinary standby average power consumption K2; when screen turning off of the mobile terminal is detected, current time is obtained and regarded as first time T1, and when the electric quantity is first electric quantity C1, standby states are obtained and recorded, wherein the standby states include the flight mode standby state and the ordinary standby state; when screen turning on of the mobile terminal is detected, current time is obtained and regarded as second time T2, and when the electric quantity is second electric quantity C2, and when the time difference of the second time T2 and the first time T1 exceeds a first threshold value, whether the battery power consumption is abnormal or not is judged.By means of the battery abnormity detection method and system, the battery power consumption of the mobile terminal can be detected during daily usage, the trend of quicker battery power consumption can be found in time, and information can be recorded in the mobile terminal.

Description

A kind of battery method for detecting abnormality based on mobile terminal and system
Technical field
The present invention relates to vehicle electric field, in particular a kind of battery method for detecting abnormality based on mobile terminal and system.
Background technology
Current mobile terminal all uses and rechargeable battery and power, although battery technology has been achieved with rapid progress, but it is still the service life of battery limited, after n times discharge and recharge, the performance of battery will be remarkably decreased, battery drain can be very fast, and ultimately resulting in mobile terminal needs charging continually could maintain normal use;Wherein, aforementioned N also with user's use habit, use environment all have relation etc..
Considering at present still not to the detection technique that battery is abnormal, user cannot judge that in routine use battery is really to have died or mobile terminal itself is problematic causes that battery drain is fast;It addition, under the normal premise of mobile terminal itself, user generally requires and finds that in repeatedly using battery drain just will be considered that time fast that battery needs to change, and this use that battery drain is fast several times experience is clearly offending;Further, after mobile terminal is conveyed to maintenace point soon because of power consumption, maintainer generally requires and just can determine that battery drain is fast through a longer such as use of a day, takes time and effort, and maintenance efficiency is low.
Therefore, prior art has yet to be improved and developed.
Summary of the invention
The technical problem to be solved in the present invention is in that, drawbacks described above for prior art, a kind of battery method for detecting abnormality based on mobile terminal and system are provided, mobile terminal is enable to detect the situation of battery drain while used in everyday, and find the trend that accelerates of battery drain in time and record the information in mobile terminal, thus bringing following three points improvements over the prior art: (1) can interpolate that out the too fast problem being because battery itself of battery drain, being also because application software itself in use needs to expend more electric energy really;(2) trend that battery drain changes can be predicted in time, it is thus possible to remind user to go maintenace point to change battery in time, just expect that maintenace point changes battery without user after needing the unhappy experience that Consumer's Experience repeatedly power consumption is fast as prior art;(3) maintainer only directly need to be read from mobile terminal by corresponding instrument and be recorded the tendency information that battery drain in the terminal accelerates on mobile terminal use procedure, it may determine that the need of changing battery, need just to can determine that battery drain is fast through a longer such as use of a day without maintainer as prior art.
This invention address that the technical scheme that technical problem adopts is as follows:
A kind of battery method for detecting abnormality based on mobile terminal, wherein, including:
S1, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;
S2, when detecting that mobile terminal goes out screen, obtaining current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;
S3, when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain exception;
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2.
The described battery method for detecting abnormality based on mobile terminal, wherein, mean unit time power consumption when offline mode in described step A is standby: the standby average consumption K1 that flies is obtained by following methods:
Mobile terminal is connected one piece of normal battery;
Mobile terminal is set to offline mode;
Record current time T11, electricity C11;
Mobile terminal is gone out the time shielding and keeping one longer;
By mobile terminal bright screen;
Record current time T12, electricity C12;
Then K1 is determined by formula (C11-C12)/(T11-T12).
The described battery method for detecting abnormality based on mobile terminal, wherein, mean unit time power consumption when general mode in described step A is standby: common standby average consumption K2 is obtained by following methods:
Mobile terminal is connected one piece of normal battery;
Record current time T21, electricity C21;
Mobile terminal is gone out the time shielding and keeping one longer;
By mobile terminal bright screen;
Record current time T22, electricity C22;
Then K2 is determined by formula (C21-C22)/(T21-T22).
The described battery method for detecting abnormality based on mobile terminal, wherein, described first threshold takes 10 minutes.
The described battery method for detecting abnormality based on mobile terminal, wherein, described Second Threshold takes 5%.
The described battery method for detecting abnormality based on mobile terminal, wherein, also includes after described step S3:
If judging in S4 step S3, battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely, and whether abnormal information is shown on screen by battery;Wherein, described particular address is only used for store the mark whether battery is abnormal.
A kind of battery abnormality detection system based on mobile terminal, wherein, including:
Prestore module, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;
Detection module, for when detect that mobile terminal goes out screen, acquisition current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;
Judge module, for when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain is abnormal;
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2.
The described battery abnormality detection system based on mobile terminal, wherein, prestores module and includes:
Fly standby average consumption K1 acquiring unit, for controlling to obtain by the following method: mobile terminal is connected one piece of normal battery;Mobile terminal is set to offline mode;Record current time T11, electricity C11;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T12, electricity C12;Then K1 is determined by formula (C11-C12)/(T11-T12);
Common standby average consumption K2 computing unit, is obtained by following methods for i.e. common standby average consumption K2: mobile terminal is connected one piece of normal battery;Record current time T21, electricity C21;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T22, electricity C22;Then K2 is determined by formula (C21-C22)/(T21-T22).
The described battery abnormality detection system based on mobile terminal, wherein, described first threshold takes 10 minutes;Described Second Threshold takes 5%.
The described battery abnormality detection system based on mobile terminal, wherein, it also includes:
Write controls module with pointing out, if for judging that battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely, and whether abnormal information is shown on screen by battery;Wherein, described particular address is only used for store the mark whether battery is abnormal.
Compared to prior art, the battery method for detecting abnormality based on mobile terminal provided by the present invention and system, due to have employed in advance storage offline mode in the terminal standby and common standby time mean unit time power consumption, be set to K1, K2;When detecting that mobile terminal goes out screen, obtain current time T1, electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;When mobile terminal bright screen being detected, obtain current time T2, electricity C2, when the time difference of T2 and T1 exceed first threshold and when C3-T3*K3 is more than Second Threshold battery drain exception.Thus increasing three below function for mobile terminal, providing the user conveniently: (1) can interpolate that out the too fast problem being because battery itself of battery drain, being also because application software itself in use needs to expend more electric energy really;(2) trend that battery drain changes can be predicted in time, it is thus possible to remind user to go maintenace point to change battery in time, just expect that maintenace point changes battery without user after needing the unhappy experience that Consumer's Experience repeatedly power consumption is fast as prior art;(3) maintainer only directly need to be read from mobile terminal by corresponding instrument and be recorded the tendency information that battery drain in the terminal accelerates on mobile terminal use procedure, it may determine that the need of changing battery, need just to can determine that battery drain is fast through a longer such as use of a day without maintainer as prior art.
Accompanying drawing explanation
Fig. 1 is the present invention flow chart based on the preferred embodiment of the battery method for detecting abnormality of mobile terminal.
Fig. 2 is the present invention functional schematic block diagram based on the preferred embodiment of the battery abnormality detection system of mobile terminal.
Detailed description of the invention
For making the purpose of the present invention, technical scheme and advantage clearly, clearly, developing simultaneously referring to accompanying drawing, the present invention is described in more detail for embodiment.Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.
Referring to Fig. 1, Fig. 1 is the present invention flow chart based on the preferred embodiment of the battery method for detecting abnormality of mobile terminal.As it is shown in figure 1, the present invention comprises the following steps based on the battery method for detecting abnormality of mobile terminal:
S1, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;
Unit interval power consumption (the change of the battery electric quantity of unit interval mobile terminal of mobile terminal when considering standby in this enforcement, electricity is exactly intuitively the energy content of battery residue percentage ratio that mobile terminal shows, as mobile terminal shows 66% explanation energy content of battery residue 66%) vary less, and changing relatively stable, being therefore set in two states offline mode, standby and common standby to get off to detect battery whether power consumption abnormal;And owing to user uses situation the unknown of mobile terminal under all the other states, it is difficult to carry out the calculating of unit interval power consumption.
Wherein, K1 is the mean unit time power consumption (being called for short: fly standby average consumption K1) that mobile terminal offline mode is standby, and K1 is obtained by following methods:
S71, connects one piece of normal battery by mobile terminal;
S72, is set to offline mode by mobile terminal;
S73, records current time T11, as electricity C11;Such as when time 17:20:12, electricity is shown as 88%, then T11 is 17:20:12, C11 is 88%;
S74, goes out mobile terminal the time shielding and keeping one longer;Time is more long, and K1 is more accurate;
S75, by mobile terminal bright screen;
S76, records current time T12, electricity C12;Such as when time 17:50:12, electricity is shown as 66%, then T12 is 17:50:12, C12 is 66%;
S77, then K1 is determined by formula (C11-C12)/(T11-T12).Described in connecting, being 88% when T11 is 17:20:12, C11, T12 is 17:50:12, C12 when being 66%, K1 by formula (C11-C12)/(T11-T12)=(88%-66%)/30 minute=0.73%/minute;That is, power consumption 0.73%K1 per minute.
It addition, for the accuracy ensureing K1, it is also possible to repeatedly perform above method with multiple stage mobile terminal, finally the K1 tried to achieve is taken calculation and state on average.
Wherein, K2 be the standby mean unit time power consumption of mobile terminal general mode (be called for short: common standby average consumption K2), K2 is obtained by following methods:
S81, connects one piece of normal battery by mobile terminal;
S82, records current time T21, electricity C21;
S83, goes out mobile terminal the time shielding and keeping one longer;
S84, by mobile terminal bright screen;
S85, records current time T22, electricity C22;
S86, then K2 is determined by formula (C21-C22)/(T21-T22).Concrete citing calculation is with reference to step S71-S77.
It addition, for the accuracy ensureing K2, it is also possible to repeatedly perform above method with multiple stage mobile terminal, finally the K2 tried to achieve is taken calculation and state on average.
S2, when detecting that mobile terminal goes out screen, obtaining current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state.
Wherein, when detecting that mobile terminal goes out screen, obtain current time the oneth T1, the first electricity C1, and holding state record is in a file F of mobile terminal;Wherein, to include offline mode standby and common standby for holding state.
S3, when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain is abnormal;
Wherein, first threshold, should not obtain too small, if such as taking first threshold is 10 seconds, because 10 second time is too short, if this mean unit time power consumption of 10 seconds likely with K1(flight module) if or K2(general module) compared with may differ by bigger;It is preferred that described first threshold takes 10 minutes;
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2;
When the present invention is embodied as, when K3 is being take K1, and when is taking K2, respectively when judging whether mobile terminal arranges offline mode;It is K1 when mobile terminal arranges offline mode, is otherwise K2.
In the embodiment of the present invention, it is preferred that, Second Threshold takes 5%;In the present invention in embodiment, C3-T3*K3, for C3-(T3*K3)=5%.Concrete numerical example is as follows: K3 is non-offline mode lower unit interval (the such as unit interval is 1 second) power consumption is such as 0.01%, and T3 is time value is such as 1000 seconds, and C3 is 16% for another example, then C3-T3*K3=6%.
Wherein, after step S3 terminates, content in file F is emptied.
Wherein, if judging in step S3, battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely;Described particular address is only used for store the mark whether battery is abnormal, is such as masked as 1 battery abnormal, is masked as 0 battery normal;In mobile terminal maintenace point, only need to read the value of storage in memorizer particular address it is known that whether battery is abnormal;Simultaneously the information of battery whether exception also only just need to can be shown in onscreen cue user by reading the value of storage in memorizer particular address by mobile terminal itself.
Based on said method embodiment, present invention also offers a kind of battery abnormality detection system based on mobile terminal, as in figure 2 it is shown, described system includes:
Prestore module 210, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;As detailed above.
Detection module 220, for when detect that mobile terminal goes out screen, acquisition current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;As detailed above.
Judge module 230, for when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain is abnormal;As detailed above.
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2;As detailed above.
The described battery abnormality detection system based on mobile terminal, wherein, prestores module and includes:
Fly standby average consumption K1 acquiring unit, for controlling to obtain by the following method: mobile terminal is connected one piece of normal battery;Mobile terminal is set to offline mode;Record current time T11, electricity C11;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T12, electricity C12;Then K1 is determined by formula (C11-C12)/(T11-T12);As detailed above.
Common standby average consumption K2 computing unit, is obtained by following methods for i.e. common standby average consumption K2: mobile terminal is connected one piece of normal battery;Record current time T21, electricity C21;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T22, electricity C22;Then K2 is determined by formula (C21-C22)/(T21-T22);As detailed above.
The described battery abnormality detection system based on mobile terminal, wherein, described first threshold takes 10 minutes;Described Second Threshold takes 5%.
Further, the described battery abnormality detection system based on mobile terminal, as in figure 2 it is shown, it also includes:
Write controls module 240 with pointing out, if for judging that battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely, and whether abnormal information is shown on screen by battery;Wherein, described particular address is only used for store the mark whether battery is abnormal;As detailed above.
In sum, the battery method for detecting abnormality based on mobile terminal provided by the present invention and system, described method by advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to K1, K2;When detecting that mobile terminal goes out screen, obtain current time T1, electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;When mobile terminal bright screen being detected, obtain current time T2, electricity C2, when the time difference of T2 and T1 exceed first threshold and when C3-T3*K3 is more than Second Threshold battery drain exception.Thus increasing three below function for mobile terminal, providing the user conveniently: (1) can interpolate that out the too fast problem being because battery itself of battery drain, being also because application software itself in use needs to expend more electric energy really;(2) trend that battery drain changes can be predicted in time, it is thus possible to remind user to go maintenace point to change battery in time, just expect that maintenace point changes battery without user after needing the unhappy experience that Consumer's Experience repeatedly power consumption is fast as prior art;(3) maintainer only directly need to be read from mobile terminal by corresponding instrument and be recorded the tendency information that battery drain in the terminal accelerates on mobile terminal use procedure, it may determine that the need of changing battery, need just to can determine that battery drain is fast through a longer such as use of a day without maintainer as prior art.
Certainly, one of ordinary skill in the art will appreciate that all or part of flow process realizing in above-described embodiment method, can be by computer program and carry out instruction related hardware (such as processor, controller etc.) complete, described program can be stored in the storage medium of an embodied on computer readable, and this program can include upon execution such as the flow process of above-mentioned each side method embodiment.Wherein said storage medium can be memorizer, magnetic disc, CD etc..
It should be appreciated that the application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, it is possible to improved according to the above description or convert, all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1. the battery method for detecting abnormality based on mobile terminal, it is characterised in that including:
S1, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;
S2, when detecting that mobile terminal goes out screen, obtaining current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;
S3, when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain exception;
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2.
2. according to claim 1 based on the battery method for detecting abnormality of mobile terminal, it is characterised in that mean unit time power consumption when offline mode in described step A is standby: the standby average consumption K1 that flies is obtained by following methods:
Mobile terminal is connected one piece of normal battery;
Mobile terminal is set to offline mode;
Record current time T11, electricity C11;
Mobile terminal is gone out the time shielding and keeping one longer;
By mobile terminal bright screen;
Record current time T12, electricity C12;
Then K1 is determined by formula (C11-C12)/(T11-T12).
3. according to claim 1 based on the battery method for detecting abnormality of mobile terminal, it is characterised in that mean unit time power consumption when general mode in described step A is standby: common standby average consumption K2 is obtained by following methods:
Mobile terminal is connected one piece of normal battery;
Record current time T21, electricity C21;
Mobile terminal is gone out the time shielding and keeping one longer;
By mobile terminal bright screen;
Record current time T22, electricity C22;
Then K2 is determined by formula (C21-C22)/(T21-T22).
4. according to claim 1 based on the battery method for detecting abnormality of mobile terminal, it is characterised in that described first threshold takes 10 minutes.
5. according to claim 1 based on the battery method for detecting abnormality of mobile terminal, it is characterised in that described Second Threshold takes 5%.
6. according to claim 1 based on the battery method for detecting abnormality of mobile terminal, it is characterised in that also include after described step S3:
If judging in S4 step S3, battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely, and whether abnormal information is shown on screen by battery;Wherein, described particular address is only used for store the mark whether battery is abnormal.
7. the battery abnormality detection system based on mobile terminal, it is characterised in that including:
Prestore module, in advance in the terminal storage offline mode standby and common standby time mean unit time power consumption, be set to the standby average consumption K1 that flies and common standby average consumption K2;
Detection module, for when detect that mobile terminal goes out screen, acquisition current time is very first time T1, and current electric quantity is the first electricity C1, and holding state record;Wherein, to include offline mode standby and common standby for described holding state;
Judge module, for when mobile terminal bright screen being detected, obtaining current time is the second time T2, and current electric quantity is the second electricity C2, when the time difference of the second time T2 Yu very first time T1 exceedes first threshold, it is judged that whether battery drain is abnormal;
Wherein, described judge whether battery drain includes extremely: battery drain is abnormal when C3-T3*K3 is more than Second Threshold, wherein, C3 is the first electricity C1 and the difference of the second electricity C2, T3 is the difference of the second time T2 and very first time T1, and K3 is determined according to user's holding state by flight standby average consumption K1 or common standby average consumption K2.
8. according to claim 7 based on the battery abnormality detection system of mobile terminal, it is characterised in that prestore module and include:
Fly standby average consumption K1 acquiring unit, for controlling to obtain by the following method: mobile terminal is connected one piece of normal battery;Mobile terminal is set to offline mode;Record current time T11, electricity C11;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T12, electricity C12;Then K1 is determined by formula (C11-C12)/(T11-T12);
Common standby average consumption K2 computing unit, is obtained by following methods for i.e. common standby average consumption K2: mobile terminal is connected one piece of normal battery;Record current time T21, electricity C21;Mobile terminal is gone out the time shielding and keeping one longer;By mobile terminal bright screen;Record current time T22, electricity C22;Then K2 is determined by formula (C21-C22)/(T21-T22).
9. according to claim 7 based on the battery abnormality detection system of mobile terminal, it is characterised in that described first threshold takes 10 minutes;Described Second Threshold takes 5%.
10. according to claim 7 based on the battery abnormality detection system of mobile terminal, it is characterised in that it also includes:
Write controls module with pointing out, if for judging that battery is as abnormal, then in mobile terminal memory, a particular address write mark indicates battery extremely, and whether abnormal information is shown on screen by battery;Wherein, described particular address is only used for store the mark whether battery is abnormal.
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CN108828445A (en) * 2018-04-16 2018-11-16 Oppo广东移动通信有限公司 Information processing method, device, mobile terminal and computer readable storage medium
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