CN101995554A - Electronic device with power state evaluation function and power evaluation method thereof - Google Patents
Electronic device with power state evaluation function and power evaluation method thereof Download PDFInfo
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- CN101995554A CN101995554A CN2010105288553A CN201010528855A CN101995554A CN 101995554 A CN101995554 A CN 101995554A CN 2010105288553 A CN2010105288553 A CN 2010105288553A CN 201010528855 A CN201010528855 A CN 201010528855A CN 101995554 A CN101995554 A CN 101995554A
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- power consumption
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- G—PHYSICS
- G01—MEASURING; TESTING
- G01R—MEASURING ELECTRIC VARIABLES; MEASURING MAGNETIC VARIABLES
- G01R31/00—Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
- G01R31/36—Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
- G01R31/3644—Constructional arrangements
- G01R31/3648—Constructional arrangements comprising digital calculation means, e.g. for performing an algorithm
Abstract
The invention provides an electronic device with a power state evaluation function and a power evaluation method thereof. The device comprises a battery, a storage module, an input interface, a processing module and a temporary storage module, wherein the battery provides the required electric power for the electronic device with the power state evaluation function; the storage module stores a predetermined user record, a plurality of application programs and power consumption parameters corresponding to the application programs; the predetermined user record comprises predetermined user numbers, predetermined application programs corresponding to the predetermined user numbers, and theoretical power consumption curves corresponding to the predetermined application programs; the input interface is used for receiving a user number and selecting one of the plurality of application programs; the processing module is electrically connected with the storage module, the input interface and the battery, senses the voltage value of the battery, judges whether the predetermined user number and the user number are same, and judges whether the selected application program and the predetermined application program are same; and the temporary storage module is connected with the processing module. The invention can provide the evaluation function for the power state of the electronic device, so that the users can better know the power service state.
Description
Technical field
The present invention relates to a kind of electronic installation and power supply appraisal procedure thereof, especially a kind of electronic installation with power supply status evaluation function and power supply appraisal procedure thereof of being accustomed to carrying out automatically the intelligent power assessment at the user with power supply status evaluation function.
Background technology
Be in an electronic information industry high-speed developing period, the high convenience that the palm type electronic consumer products are provided, the feasible favor that is subjected to more and more people as palm type electronic consumer products such as electronic dictionary, electronic learning machine, personal digital assistants, and people also increase day by day for the requirement of palm type electronic consumer products function, and whether the palm type electronic consumer products are easy to use, and whether can in time feed back and intelligence satisfy user's demand, become the important criticism pointer of high-tech product technology.Wherein, battery is one of conclusive index especially, yet the power-on time of same battery under different use habits may be different.
Most palm type electronic consumer products on the market do not have the electric weight service recorder at present, only can before exhausting, electric weight point out, or give the user about dump energy information in modes such as electric weight lattice numbers, so the user can't learn accurately how long the palm type electronic consumer products also can be used under the situation of not charging.And order does not carry out assessment service time at different users yet.
Summary of the invention
The above-mentioned technical matters of the present invention for existing in the solution background technology, and propose to have the electronic installation and the power supply appraisal procedure thereof of power supply status evaluation function.
Technical solution of the present invention is that the present invention is a kind of electronic installation with power supply status evaluation function, and its special character is: this device comprises: battery provides the electronic installation of power supply status evaluation function required electric power; Storage module, store the power consumption parameter of being scheduled to user's record, a plurality of application program and application program correspondence, predetermined user's record comprises the theoretical power consumption curve that predetermined user numbers, predetermined user numbers pairing predetermined application and corresponding predetermined application; Input interface is used for receiving user's numbering, and selects one of a plurality of application programs; Processing module electrically connects storage module, input interface and battery, the magnitude of voltage of detecting battery, and judge whether predetermined user's numbering is identical with user's numbering, and judge whether selecteed application program is identical with predetermined application; Interim storage module, the connection processing module; Wherein, when judged result is identical, processing module is in interim storage module, and the theoretical power consumption curve that stores the predetermined application correspondence is interim power consumption curve, and produces the pot life of battery according to theoretical power consumption curve and magnitude of voltage.
Above-mentioned electronic installation also comprises display unit, display unit connection processing module, the pot life of demonstration battery.
Above-mentioned processing module is at the Fixed Time Interval detection threshold, and is stored in the interim power consumption curve.
When above-mentioned user selected one of a plurality of application programs by input interface, processing module write branch's record in interim power consumption curve.
When above-mentioned user selects to withdraw from one of selecteed a plurality of application programs by input interface, processing module in predetermined user record, and produces the pot life of battery with interim power consumption curve record according to interim power consumption curve, theoretical power consumption curve and magnitude of voltage.
A kind of power supply status appraisal procedure is applicable to the pot life of the battery of evaluation electronics, and its special character is: the method includes the steps of:
1) the power consumption parameter that provides the storage module storage to be scheduled to user's record, a plurality of application program and each application program correspondence, predetermined user's record comprise is scheduled to the theoretical power consumption curve that the user numbers, predetermined user numbers pairing predetermined application and corresponding predetermined application;
2) receive user's numbering by input interface, and select one of a plurality of application programs;
3) utilize processing module to judge whether predetermined user's numbering is identical with user's numbering, and judge whether selecteed application program is identical with predetermined application;
4) when judged result identical, the theoretical power consumption curve that provides interim storage module to store the predetermined application correspondence is interim power consumption curve;
5) use the magnitude of voltage of processing module detecting battery, and produce the pot life of battery according to interim power consumption curve and magnitude of voltage.
Above-mentioned steps 5) also comprises the pot life that provides display unit to show battery afterwards.
Above-mentioned steps 4) also comprises in by processing module at the Fixed Time Interval detection threshold, and be stored in the interim power consumption curve.
Above-mentioned steps 2) also comprise in when selecting one of a plurality of application programs by input interface, processing module is writing branch's record in interim power consumption curve.
Above-mentioned steps 5) when one of selecteed a plurality of application programs are selected when withdrawing from, processing module in predetermined user's record, and produces the pot life of battery with interim power consumption curve record according to interim power consumption curve, theoretical power consumption curve and magnitude of voltage in.
The electronic installation of tool power supply status evaluation function provided by the invention and power supply appraisal procedure thereof can provide evaluation function to the power supply status of electronic installation, so that allow the user can better understand the user mode of power supply.
Description of drawings
Fig. 1 has the synoptic diagram of the electronic installation of power supply status evaluation function for the present invention;
Fig. 2 has the synoptic diagram of the operating position database of power supply status evaluation function for the present invention;
Fig. 3 has the synoptic diagram of theoretical power consumption curve of the electronic installation of power supply status evaluation function for the present invention;
Fig. 4 has the synoptic diagram of the interim power consumption curve with mark branch of the electronic installation of power supply status evaluation function for the present invention;
Fig. 5 has the synoptic diagram of average power consumption curve of the electronic installation of power supply status evaluation function for the present invention;
Fig. 6 is the implementation step process flow diagram of power supply status appraisal procedure of the present invention.
Wherein, 1-has the electronic installation of power supply status evaluation function, the 10-storage module, 110-operating position database, 1110-is scheduled to user's record, the default application program of using of 1111-, the default user's numbering of 1112-, the theoretical power consumption curve of 1113-, the average power consumption curve of 1114-, the 1115-count parameter, 1116-power consumption curve, 120-application database, 130-power consumption parameter database, 20-processing module, 30-input interface, the 40-battery, the interim storage module of 50-, 60-display unit;
Embodiment
Referring to Fig. 1, the electronic installation 1 with power supply status evaluation function comprises storage module 10, processing module 20, input interface 30, battery 40, interim storage module 50 and display unit 60.There are three databases in the storage module 10, are respectively operating position database 110, application database 120 and power consumption parameter database 130.Record content in the operating position database 110 as shown in Figure 2, operating position database 110 comprises a plurality of predetermined users and writes down 1110, each predetermined user write down 1110 respectively record default use that application program 1111, default user number 1112, theoretical power consumption curve 1113, average power consumption curve 1114, count parameter 1115 and a plurality of power consumption curve 1116.Average power consumption curve 1113 then is the average gained of power consumption value that is write down by each different time points.
Comprise a plurality of application programs in the application database 120, each application program can be turn in the execution English, English turn in, the software of various functions such as pronunciation or reading electronic documents.And also put down in writing the required various assemblies of each application program of startup in the application database 120, the data in this application database 120 as shown in Table 1.
| Assembly one | Assembly two | Assembly three | …… | |
| Application program one | V | - | V | …… |
| Application program two | - | V | V | …… |
| Application program three | V | V | - | …… |
| …… | …… | …… | …… | …… |
Table one
Then put down in writing the electronic installation 1 of this tool power supply status evaluation function in the power consumption parameter database 130 and carry out the required assembly of each application program and the power consumption parameter of each assembly.The data of this power consumption parameter database 130 as shown in Table 2.
| Parameter one | Parameter two | Parameter three | …… | |
| Assembly one | 10 | 20 | 45 | …… |
| Assembly two | 0.02 | 840 | 7 | …… |
| Assembly three | 129 | 25.5 | 7 | …… |
| …… | …… | …… | …… | …… |
Table two
Processing module 20 electrically connects storage module 10 input interfaces 30, battery 40, interim internal memory 50 and display unit 60, magnitude of voltage with detecting battery 40, and judge that whether user numbering number 1111 identical with predetermined user, and judge whether the application program of selecting is identical with this predetermined application 1112, when judged result is identical, 20 of processing modules will be preset the theoretical power consumption curve 1113 that uses application program 1112 correspondences and save as interim power consumption curve in interim internal memory 50.And on display unit 60, show the pot life of electricity 40 according to the magnitude of voltage of interim power consumption curve 51 and battery 40.
When user numbering be scheduled to the user and number 1111 different, or the application program of judge selecting 121 and this predetermined application 1112 are not simultaneously, then processing module 20 can produce a new subscription user record in interim internal memory 50, this new subscription user record comprises information such as this application program of selecting and user's numbering, and in power consumption parameter database 130, seek the power consumption parameter of corresponding this application program 121, as at table one to seek the pairing assembly of selected application program in the table two, and the pairing electrical quantity of assembly, to calculate the theoretical power consumption curve that uses this application program 121.Processing module 20 also saves as interim power consumption curve at interim storage module 50 with theoretical power consumption curve 1113, and calculate the residue pot life of battery 40 according to this interim power consumption opisometer.
Referring to Fig. 3, be example with the application program of using reading electronic documents, and predetermined user writes down the 1110 predetermined users that there is no this user and writes down 1110.Processing module 20 produces corresponding theoretical power consumption curve 1113 according to application program of using and corresponding electrical quantity, and the data of theoretical power consumption curve 1113 are respectively 5.0 volts, 4.8 volts, 4.7 volts, 4.3 volts, 4.0 volts, 3.6 volts, 3.2 volts, 2.7 volts, 2.5 volts and 2.1 volts.In the process of user at reading electronic documents, processing module 20 is understood the magnitude of voltage that each Fixed Time Interval just detects one-shot battery 40, this Fixed Time Interval is preferably 30 minutes, and the power consumption of each time is recorded in the interim storage module 50, and produces interim power consumption curve according to battery 40 magnitudes of voltage in each time interval.
If the user is when reading electronic documents, run into unacquainted words, therefore started the application program that corresponds to electronic dictionary, and startup corresponds to the application program of pronunciation, processing module 20 can start this action record of other application program in interim power consumption curve, and with keep the score in data acceptances of the bid one and mark branch two with corresponding query actions and articulation, referring to Fig. 4.When the user withdrawed from the application program of corresponding read function, processing module 20 can write down power consumption curve 1116 in 110 default user with interim power consumption curve record, and count parameter 1115 adds 1.Last again that the power consumption curve 1116 of theoretical power consumption curve 1113 and all records is average, to get average power consumption curve 1114.Referring to Fig. 5.
In the process of user at reading electronic documents, the residue service time of active inquiry battery 40, or the magnitude of voltage of battery 40 is during less than threshold value, processing module 20 can correspond to magnitude of voltage in the average electrical curve 1114 with inquiry magnitude of voltage at that time, calculate and remain service time, being 4.1 volts with instantly battery 40 magnitudes of voltage of inquiry is example, the average power consumption curve 1114 of query graph 5, and therefore can estimate average residue service time is 150 minutes.
If after user's reading electronic documents a period of time, once started the application program of corresponding inquiry and pronunciation, processing module 20 can be passed through mark branch, write down the power consumption curve 1116 of seeking the corresponding application program of startup in 110 default user, with mark branch one among Fig. 4 and mark branch two is example, drop to 3.5 volts of needs 60 minutes by 4.1 volts of magnitudes of voltage, and the average power consumption curve 1114 of Fig. 5 is learnt by 3.5 volts and is depressurized to 2.0 volts of needs 150 clocks, therefore the magnitude of voltage of battery 40 is in the time of 4.1 volts, and can be on display unit shown residue service time is 210 minutes.If processing module 20 finds corresponding mark branch in other power consumption curve 1116, and be 180 minutes and 240 minutes residue service time of other power consumption curve 1116 gained, therefore on average estimating pot life is 210 minutes, it is 240 minutes that maximum is estimated pot life, it is 180 minutes that minimum is estimated pot life, and processing module 20 can show following prompting according to above data on display unit 60:
" current voltage is 4.1V; can use current function 180 minutes~240 minutes (theoretical value 210 minutes) ", the electronic installation 1 that has the power supply status evaluation function by the present invention can reach and the previous use habit of feedback according to the application program that the user uses, and estimates accurately to remain service time.
Referring to Fig. 6, the power supply status appraisal procedure comprises the following step:
In step S10, the power consumption parameter that provides storage module to store predetermined user's record, a plurality of application program and each application program correspondence, this predetermined user's record comprise that predetermined user's numbering, predetermined user are numbered pairing predetermined application and to theoretical power consumption curve that should predetermined application.
In step S20, receive user's numbering by input interface, and select an application program.
In step S30, utilize processing module to judge whether predetermined user's numbering is identical with user's numbering, and judge whether selecteed application program is identical with predetermined application.When judged result is then carried out step S40, when the judged result difference is then carried out step S31.
In step S31,, and carry out step 40 by the theoretical power consumption curve of the pairing power consumption parameter generating of selected application program.
In step S40, the theoretical power consumption curve that provides interim storage module to store the predetermined application correspondence is interim power consumption curve.
In step S50, use the magnitude of voltage of processing module detecting battery, and produce the pot life of battery according to interim power consumption curve and magnitude of voltage.
Claims (10)
1. electronic installation with power supply status evaluation function, it is characterized in that: this device comprises: battery provides the required electric power of electronic installation of power supply status evaluation function; Storage module, store the power consumption parameter of being scheduled to user's record, a plurality of application program and application program correspondence, predetermined user's record comprises the theoretical power consumption curve that predetermined user numbers, predetermined user numbers pairing predetermined application and corresponding predetermined application; Input interface is used for receiving user's numbering, and selects one of a plurality of application programs; Processing module electrically connects storage module, input interface and battery, the magnitude of voltage of detecting battery, and judge whether predetermined user's numbering is identical with user's numbering, and judge whether selecteed application program is identical with predetermined application; Interim storage module, the connection processing module; Wherein, when judged result is identical, processing module is in interim storage module, and the theoretical power consumption curve that stores the predetermined application correspondence is interim power consumption curve, and produces the pot life of battery according to theoretical power consumption curve and magnitude of voltage.
2. a kind of electronic installation with power supply status evaluation function according to claim 1, it is characterized in that: described electronic installation also comprises display unit, described display unit connection processing module, the pot life of demonstration battery.
3. a kind of electronic installation with power supply status evaluation function according to claim 1 is characterized in that: described processing module is at the Fixed Time Interval detection threshold, and is stored in the interim power consumption curve.
4. a kind of electronic installation with power supply status evaluation function according to claim 1 is characterized in that: when described user selected one of a plurality of application programs by input interface, processing module write branch's record in interim power consumption curve.
5. a kind of electronic installation according to claim 4 with power supply status evaluation function, it is characterized in that: when described user selects to withdraw from one of selecteed a plurality of application programs by input interface, processing module in predetermined user record, and produces the pot life of battery with interim power consumption curve record according to interim power consumption curve, theoretical power consumption curve and magnitude of voltage.
6. power supply status appraisal procedure is applicable to the pot life of the battery of evaluation electronics, and it is characterized in that: the method includes the steps of:
1) the power consumption parameter that provides the storage module storage to be scheduled to user's record, a plurality of application program and each application program correspondence, predetermined user's record comprise is scheduled to the theoretical power consumption curve that the user numbers, predetermined user numbers pairing predetermined application and corresponding predetermined application;
2) receive user's numbering by input interface, and select one of a plurality of application programs;
3) utilize processing module to judge whether predetermined user's numbering is identical with user's numbering, and judge whether selecteed application program is identical with predetermined application;
4) when judged result identical, the theoretical power consumption curve that provides interim storage module to store the predetermined application correspondence is interim power consumption curve;
5) use the magnitude of voltage of processing module detecting battery, and produce the pot life of battery according to interim power consumption curve and magnitude of voltage.
7. a kind of power supply status appraisal procedure according to claim 6 is characterized in that: also comprise the pot life that step 6) shows battery after the described step 5).
8. a kind of power supply status appraisal procedure according to claim 6 is characterized in that: also comprise in the described step 4) by processing module at the Fixed Time Interval detection threshold, and be stored in the interim power consumption curve.
9. a kind of power supply status appraisal procedure according to claim 1 is characterized in that: also comprise described step 2) when selecting one of a plurality of application programs by input interface, processing module is writing branch's record in interim power consumption curve.
10. a kind of power supply status appraisal procedure according to claim 9, it is characterized in that: in the described step 5) when one of selecteed a plurality of application programs are selected when withdrawing from, processing module in predetermined user record, and produces the pot life of battery with interim power consumption curve record according to interim power consumption curve, theoretical power consumption curve and magnitude of voltage.
Priority Applications (2)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201010528855.3A CN101995554B (en) | 2010-11-03 | 2010-11-03 | Electronic device with power state evaluation function and power evaluation method thereof |
| PCT/CN2011/079537 WO2012058981A1 (en) | 2010-11-03 | 2011-09-09 | Electronic device with power supply state evaluation function, and method for evaluating power supply thereof |
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| Application Number | Priority Date | Filing Date | Title |
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| CN201010528855.3A CN101995554B (en) | 2010-11-03 | 2010-11-03 | Electronic device with power state evaluation function and power evaluation method thereof |
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| CN101995554A true CN101995554A (en) | 2011-03-30 |
| CN101995554B CN101995554B (en) | 2014-04-23 |
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| CN201010528855.3A Active CN101995554B (en) | 2010-11-03 | 2010-11-03 | Electronic device with power state evaluation function and power evaluation method thereof |
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| WO (1) | WO2012058981A1 (en) |
Cited By (4)
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| WO2012058981A1 (en) * | 2010-11-03 | 2012-05-10 | 无敌科技(西安)有限公司 | Electronic device with power supply state evaluation function, and method for evaluating power supply thereof |
| CN103376414A (en) * | 2012-04-25 | 2013-10-30 | 腾讯科技(深圳)有限公司 | Method and device for monitoring electric quantity of battery |
| CN104935720A (en) * | 2014-03-18 | 2015-09-23 | 可牛网络技术(北京)有限公司 | Method and device for displaying electric energy consumption state of mobile terminal |
| US9285431B2 (en) | 2012-04-10 | 2016-03-15 | Tencent Technology (Shenzhen) Company Limited | Method for monitoring and managing battery charge level and apparatus for performing the same |
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Also Published As
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| WO2012058981A1 (en) | 2012-05-10 |
| CN101995554B (en) | 2014-04-23 |
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