CN101477178A

CN101477178A - Detection method and detection system for battery service time

Info

Publication number: CN101477178A
Application number: CNA2009100460112A
Authority: CN
Inventors: 郭维科
Original assignee: Huaqin Telecom Technology Co Ltd
Current assignee: Huaqin Telecom Technology Co Ltd
Priority date: 2009-02-06
Filing date: 2009-02-06
Publication date: 2009-07-08

Abstract

The invention discloses a method and a system for detecting using time of a cell. The detection system comprises a microprocessing controller, a memorizer, an electric quantity detection module and an output current detection module. The detection method comprises: detecting the residual electric quantity of the cell; detecting and storing electricity consumption values of electronic equipment in different time intervals; and according to the electricity consumption values of the cell in different time intervals, calculating number N of the time intervals where the residual electric quantity can be consumed. The method and the system for detecting the using time of the cell can calculate duration of the residual electric quantity of the cell for supporting the use of the electronic equipment according to different time intervals. With the method and the system, a user can more accurately know the time for the electronic equipment to be used, and is convenient to charge more timely or store relevant data in time to prevent data from losing.

Description

Detection method and the detection system thereof of battery service time

Technical field

The present invention relates to a kind of battery detection method and the detection system thereof of service time.

Background technology

Along with the fast development of electronic technology, portable electric appts is being played the part of more and more important role as mobile phone, notebook computer, camera etc. in people's routine work, studying and living.Utilizing the power supply of battery as these electronic equipments, is that this electronic equipment is realized the key factor that it is portable.When the dump energy of battery can't satisfy the functions of use of this electronic equipment or use the duration, just need be before using be the battery of battery charge or replacing electric weight abundance.This just requires electronic equipment to have the function that detects this battery dump energy, thereby informs the user.Portable electric appts of the prior art, the number percent that dump energy can only be accounted for battery total capacity are informed to the user, perhaps can only estimate the time that dump energy can also support that this electronic equipment uses according to the system and the function setting of this electronic equipment.But, frequency or the function difference of in the different time sections of user in one day this electronic equipment being used under normal conditions, the capital causes this electronic equipment to consume different electric weight in the different time periods, for example, more in the working time owing to talk times, frequency of utilization is higher, and the electric weight that is consumed is also many; And,, being in holding state because the phone frequency of utilization is lower in the length of one's sleep, the electricity ratio that is consumed is less; Have at battery under the situation of same dump energy, the time that can support electronic equipment to use in different time sections is different.Electronic equipment of the prior art, the dump energy that can not calculate battery according to user's use habit can support in the different time periods how long this electronic equipment uses.

Summary of the invention

The purpose of this invention is to provide a kind of battery detection method and the detection system thereof of service time, this method and system thereof can calculate the dump energy of battery according to user's use habit can support in the different time periods how long this electronic equipment uses.

The detection system of a kind of battery service time comprises:

Microprocessor controller, be used for calculating electronic equipment in one day each time interval the power consumption value and can support the duration that electronic equipment uses according to above-mentioned power consumption magnitude calculation current dump energy value;

Storer is used for the power consumption value of store electrons equipment in one day each time interval, and this storer is connected with described microprocessor controller;

The electric weight detection module is used to detect described battery in the residual electric quantity of current time and send electric quantity signal, and its input end is connected with described battery and output terminal is connected with described microprocessor controller;

The output current detection module is used to detect the output current value of described battery and sends current signal, and its input end is connected with described battery and output terminal is connected with described microprocessor controller.

The detection method of a kind of battery service time comprises:

The residual electric quantity of step 1), detection battery;

Step 2), detect and preserve the power consumption value of electronic equipment in different time intervals;

Step 3), according to the power consumption value of battery in the different time interval, calculate the quantity N of the consumable time interval of described residual electric quantity.

Detection method and the detection system thereof of battery provided by the present invention service time, the power consumption situation of detected electrons equipment in real time, and the power consumption distribution situation in different time interval in a day preserved.Like this, can calculate the duration that battery dump energy can support that electronic equipment uses according to different time intervals.By this method and system, the user can recognize the also spendable time of electronic equipment more accurately, is convenient to charge more timely, perhaps preserves related data timely and prevents loss of data.

Description of drawings

Fig. 1 is the power consumption distribution situation synoptic diagram in different time interval;

Fig. 2 is the battery of the present invention detection system modular structure synoptic diagram of service time;

Fig. 3 is the battery of the present invention detection method flow chart of steps of service time.

Embodiment

Embodiment one

As shown in Figure 2, the detection system of a kind of battery service time is characterized in that comprising:

Microprocessor controller, be used for calculating electronic equipment in one day each time interval the power consumption value and can support the duration that electronic equipment uses according to above-mentioned power consumption magnitude calculation current dump energy value; By described electronic equipment power consumption value in each time interval in a day, can understand the distribution situation (as shown in Figure 1) of battery power consumption in this electronic equipment one day.

Storer is used for the power consumption value of store electrons equipment in one day each time interval, and this storer is connected with described microprocessor controller.

The electric weight detection module is used to detect described battery in the residual electric quantity of current time and send electric quantity signal, and its input end is connected with described battery and output terminal is connected with described microprocessor controller; Described microprocessor controller is learnt described residual electric quantity according to the described electric quantity signal that receives.

The output current detection module is used to detect the output current value of described battery and sends current signal, and its input end is connected with described battery and output terminal is connected with described microprocessor controller.Described output current detection module is periodic to be detected the output current value of described battery and sends current signal, described microprocessor controller is learnt the output current value that described battery is current according to the current signal that receives, according to described output current value, described microprocessor controller can calculate the power consumption value in each time interval in a day, thereby obtains the distribution situation of battery power consumption in a day.Described time interval is meant that 24 hours with every day are divided into some intervals, for example, is divided into 24 intervals, and each time interval is 60 minutes.As shown in Figure 1, described 24 time intervals are respectively T1 to T24; The power consumption value of described each time interval is respectively W1 to W24; The moment in fact of described each time interval can be the integral point moment, also can be the non-integral point moment.The initial moment as T1 can be 0:00 to 1:00; The initial moment of T2 can be 1:00 to 2:00.Described microprocessor controller can calculate the quantity of the consumable time interval of this dump energy according to the power consumption value of described residual electric quantity and each time interval, and the user can recognize that the dump energy of described battery can support the time that this electronic equipment uses like this.

Further, also comprise a real-time timepiece chip that is connected with described microprocessor controller (RTC, Real-TimeClock).Microprocessor controller can obtain current time by reading the data in this real-time timepiece chip.According to current time, can calculate power consumption value from the time interval of current time, described like this microprocessor controller just can calculate the quantity of the time interval that described dump energy can consume after current time, promptly this electronic equipment is from the also spendable time of current time.

Further, also comprise display module, described display module is connected with described microprocessor controller.The described display module of control shows this result of calculation described microprocessor controller calculates the quantity of the time interval that described residual electric quantity consumed after current time after.Like this, the user can recognize very easily how long this electronic equipment can also use.

Further, also comprise the auditory tone cues module, this auditory tone cues module is connected with described microprocessor controller.Described auditory tone cues module is used for sending cue under the control of microprocessor controller, when N is equal to or less than the prompting dividing value, described microprocessor controller can send control signal, described auditory tone cues module is sent the sound of " B-B " according to this control signal, and the prompting user should charge as early as possible.Certainly, described auditory tone cues module also can be sent the sound that other can play suggesting effect.Described display module also can show relevant information according to this control signal, as Word messages such as " please charging as early as possible ".

Embodiment two

As shown in Figure 3, a kind ofly be used to realize that the detection system described in the embodiment one comes the battery detection method of service time, comprise step 1), detect the residual electric quantity of battery; It is characterized in that, also comprise:

Step 2), detect and preserve the power consumption value of electronic equipment in different time intervals; Be the power consumption distribution situation (as shown in Figure 1) of electronic equipment in one day;

Further, described step 2) comprising:

Step 21), periodically detect and preserve the output current value I of described battery;

Step 22), according to the power consumption value in described each time interval of I calculating.For example but per minute detects the output current value I of battery, more described output current value I is carried out integration, draws the power consumption of this time interval.After detecting and calculating the power consumption of each time interval in a day, promptly obtain the power consumption time distribution situation (as shown in Figure 1) of this day.

Further, described step 3) comprises:

31), microprocessor controller reads current time; Be provided with a real-time timepiece chip (RTC, Real-Time Clock) in this electronic equipment, the microprocessor controller of electronic equipment obtains current time by the data that read among this RTC.

32), microprocessor controller is according to current time, determines interval reference time; Described reference time, the interval was current time first time interval afterwards.For example, current time is 5:00, and then reference time, the interval was T6, and the power consumption of this time interval is W6.If current time is less than the least bit, then, to calculate according to 5:00 as 5:24 according to nearest calculating on schedule before the current time, interval reference time of this moment is T6; If current time then according to nearest calculating on schedule after the current time, calculates according to 6:00 as 5:46 for surpassing the least bit, interval reference time of this moment is T7.

33), microprocessor controller is according to the power consumption value of each time interval, and is interval from described reference time, calculates the quantity N of described residual electric quantity consumable time interval after current time.Described microprocessor controller is interval from described reference time, from described storer, read and from residual electric quantity, deduct the power consumption value of each time interval successively, be equal to or less than 0 up to difference, calculate the quantity of the time interval that deducts altogether this moment, is the quantity N of described residual electric quantity consumable time interval after current time; Certainly, can be according to electronic equipment power consumption situation, set electronic equipment when battery electric quantity is Wmix, the system unbootable of this electronic equipment, can't start shooting, it will be understood by those skilled in the art that and to calculate the quantity N of the time interval that deducts altogether when described difference is equal to or less than Wmix.

Further, further comprising the steps of after described step 3):

4) the quantity N that, shows the time interval that dump energy can be consumed after current time.Like this, can make things convenient for the user to learn how long this electronic equipment can also use, in time charge or keep related data.

Further, further comprising the steps of:

5), when described N is less than or equal to the prompting dividing value of setting, electronic equipment sends cue.Described prompting dividing value can be set by the user, is kept in the described storer.Described microprocessor controller compares described N and described prompting dividing value, when described N is less than or equal to the prompting dividing value of setting, described microprocessor controller sends signal, described display module can be according to this signal display reminding information, can play the literal of suggesting effect, image information as Word messages such as " please charging as early as possible " or other; Described auditory tone cues module can be sent the prompting sound according to this signal, for example " B-B " sound, perhaps other can play the sound of suggesting effect.Like this, can better remind the user as early as possible battery to be charged, in order to avoid influence the use of this electronic equipment.Described prompting dividing value can be set according to user's needs, can be 1 hour or 2 hours, also 30 minutes or other more suitable time values.

Claims

1, the detection system of a kind of battery service time is characterized in that, comprising:

2, the detection system of battery as claimed in claim 1 service time is characterized in that: also comprise a real-time timepiece chip that is connected with described microprocessor controller.

3, the detection system of battery as claimed in claim 1 service time, it is characterized in that: also comprise display module, described display module is connected with described microprocessor controller.

4, the detection system of battery as claimed in claim 1 service time, it is characterized in that: also comprise the auditory tone cues module, this auditory tone cues module is connected with described microprocessor controller.

5, the detection method of a kind of battery service time comprises step 1), detects the residual electric quantity of battery; It is characterized in that, also comprise:

6, the detection method of the battery service time shown in claim 5 is characterized in that described step 2) comprising:

Step 22), according to the power consumption value in described each time interval of I calculating.

7, the detection method of battery as claimed in claim 6 service time is characterized in that described step 3) comprises:

Step 31), microprocessor controller reads current time;

Step 32), microprocessor controller is according to current time, determines interval reference time;

Step 33), microprocessor controller is according to the power consumption value of each time interval, and is interval from described reference time, calculates the quantity N of described residual electric quantity consumable time interval after current time.

8, as the detection method of each described battery service time in the claim 5 to 7, it is characterized in that, also comprise after the described step 3):

The quantity N of the time interval that step 4), demonstration dump energy can be consumed after current time.

9, as the detection method of each described battery service time in the claim 5 to 7, it is characterized in that, also comprise:

When described N was less than or equal to the prompting dividing value of setting, electronic equipment sent cue.