CN104991191A - System and method of dynamically detecting mobile terminal battery capacity - Google Patents

Abstract

The invention discloses a system and method of dynamically detecting a mobile terminal battery capacity, comprising detecting the first battery capacity Q1 in a first detection time t1, and the second battery capacity Q2 in a second detection time t2; calculating the battery capacity difference value delta Q between the first battery capacity Q1 and the second battery capacity Q2; obtaining a corresponding battery capacity percentage difference value according to the battery capacity difference value delta Q and sending a level signal; receiving the level signal to control a battery capacity display module to display the increase and decrease of a battery capacity percentage; and obtaining and displaying the battery capacity percentage in the second detection time t2 according to the battery capacity percentage in the first detection time t1, and the battery capacity difference value, thereby accurately obtaining a mobile terminal battery capacity when a user rapidly charges or uses power.

Description

The system and method for detection of dynamic battery capacity of mobile terminal

Technical field

The present invention relates to mobile terminal electric power detection field, particularly relate to the system and method for detection of dynamic battery capacity of mobile terminal.

Background technology

In prior art, the number percent that the electric quantity of lithium battery of mobile terminal shows usually in 1% increases or reduces, and when lithium battery is in rapid charge, the electricity of battery increases fast, because battery electric quantity increase is very fast, when the display of its electricity is the number percent increase of 1%, the speed of the electricity display update of intelligent mobile terminal does not catch up with the speed of electric quantity of lithium battery increase, shows inaccurate problem with regard to there will be electricity.In like manner, when user plays games at use intelligent mobile terminal, make a phone call, when online etc. needs the operation of high-current consumption, because battery electric quantity reduces very fast, when the electricity display of intelligent mobile terminal is the number percent reduction of 1%, the speed of the electricity display update of intelligent mobile terminal does not catch up with the speed of electric quantity of lithium battery reduction, there will be electricity and shows inaccurate problem.Therefore user can not obtain battery level information exactly.

Therefore, prior art has yet to be improved and developed.

Summary of the invention

In view of above-mentioned the deficiencies in the prior art, the object of the present invention is to provide a kind of system and method for detection of dynamic battery capacity of mobile terminal, be intended to solve terminal battery electricity quantity and show inaccurate problem.

Technical scheme of the present invention is as follows:

A system for detection of dynamic battery capacity of mobile terminal, wherein, comprising:

Battery electric quantity detection module, the second battery electric quantity Q2 during the first battery electric quantity Q1 during for detecting the first t1 detection time and the second t2 detection time;

Battery power amount calculation module, for calculating the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

Electricity equivalent calculated module, send level signal for showing that according to battery electric quantity difference △ Q the difference of corresponding battery electric quantity number percent is concurrent;

Central processing unit, for incoming level signal, controlling electricity quantity display module display battery electric quantity number percent increases or reduces;

Electricity quantity display module, the number percent of battery electric quantity during for drawing the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

The system of described detection of dynamic battery capacity of mobile terminal, wherein, in described battery electric quantity detection module, first detection time t1< second t2 detection time.

The system of described detection of dynamic battery capacity of mobile terminal, wherein, described battery power amount calculation module comprises:

Electric comparator unit, for comparing the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal.

The system of described detection of dynamic battery capacity of mobile terminal, wherein, described central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if reception low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.

The system of described detection of dynamic battery capacity of mobile terminal, wherein, described electricity equivalent calculated module comprises:

Battery electric quantity percentage settings unit, for setting the corresponding relation of battery electric quantity and battery electric quantity number percent.

A method for detection of dynamic battery capacity of mobile terminal, wherein, comprises step:

A, the second battery electric quantity Q2 when obtaining the first battery electric quantity Q1 of mobile terminal when the first t1 detection time and the second t2 detection time;

B, calculate the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

C, show that the difference of corresponding battery electric quantity number percent is concurrent according to battery electric quantity difference △ Q and send level signal;

D, incoming level signal, battery electric quantity number percent when controlling for the second detection time increases or reduces;

The number percent of E, battery electric quantity when to draw the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

The method of described detection of dynamic battery capacity of mobile terminal, wherein, in described steps A, first detection time t1< second t2 detection time.

The method of described detection of dynamic battery capacity of mobile terminal, wherein, described step B comprises:

B1, judge the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, and the second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal.

The method of described detection of dynamic battery capacity of mobile terminal, wherein, in described step C, described central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if reception low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.

The method of described detection of dynamic battery capacity of mobile terminal, wherein, described step C also comprises:

The corresponding relation of C1, setting battery electric quantity and battery electric quantity number percent.

Beneficial effect: the present invention is by the first battery electric quantity Q1 at t1 detection the first detection time mobile terminal, second detection time t2 detect the second battery electric quantity Q2, relatively the first battery electric quantity Q1 and the second battery electric quantity Q2, draw battery electric quantity difference △ Q, the difference of corresponding battery electric quantity number percent is drawn according to battery electric quantity difference △ Q, when the first battery electric quantity Q1 is less than the second battery electric quantity Q2, central processing unit controls electricity quantity display module display electricity number percent to be increased, recruitment is the battery electric quantity percentage difference that battery electric quantity difference △ Q is corresponding, and when the first battery electric quantity Q1 is greater than the second battery electric quantity Q2, central processing unit controls electricity quantity display module display electricity number percent to be reduced, reducing amount is the battery electric quantity percentage difference that battery electric quantity difference △ Q is corresponding, the present invention is by obtaining the relation of battery electric quantity and battery electric quantity number percent, when obtaining battery electric quantity and changing, the changing value of battery electric quantity is converted to corresponding battery electric quantity percent change value, and show, ensure that user is when rapid charge or quick electricity consumption, can Obtaining Accurate mobile terminal electricity.

Accompanying drawing explanation

Fig. 1 is the structured flowchart of the system of detection of dynamic battery capacity of mobile terminal of the present invention.

Fig. 2 is the structured flowchart of the battery power amount calculation module of the system of detection of dynamic battery capacity of mobile terminal of the present invention.

Fig. 3 is the structured flowchart of the equivalent calculated module of the system of detection of dynamic battery capacity of mobile terminal of the present invention.

Fig. 4 is the System Operation FB(flow block) that the preferred embodiment battery electric quantity of the system of detection of dynamic battery capacity of mobile terminal of the present invention increases.

Fig. 5 is the Signal transmissions graph of a relation between the central processing unit of the preferred embodiment battery electric quantity increase of the system of detection of dynamic battery capacity of mobile terminal of the present invention and electricity quantity display module.

Fig. 6 is the System Operation FB(flow block) that the preferred embodiment battery electric quantity of the system of detection of dynamic battery capacity of mobile terminal of the present invention reduces.

Fig. 7 is the Signal transmissions graph of a relation between the central processing unit of the preferred embodiment battery electric quantity reduction of the system of detection of dynamic battery capacity of mobile terminal of the present invention and electricity quantity display module.

Fig. 8 is the flow chart of steps of the method for detection of dynamic battery capacity of mobile terminal of the present invention.

Embodiment

The invention provides a kind of system and method for detection of dynamic battery capacity of mobile terminal, for making object of the present invention, technical scheme and effect clearly, clearly, the present invention is described in more detail below.Should be appreciated that specific embodiment described herein only in order to explain the present invention, be not intended to limit the present invention.

Refer to Fig. 1, be the structured flowchart of the system of detection of dynamic battery capacity of mobile terminal of the present invention, wherein, comprise:

Battery electric quantity detection module 100, the second battery electric quantity Q2 during the first battery electric quantity Q1 during for detecting the first t1 detection time and the second t2 detection time;

Battery power amount calculation module 200, for calculating the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

Electricity equivalent calculated module 300, send level signal for showing that according to battery electric quantity difference △ Q the difference of corresponding battery electric quantity number percent is concurrent;

Central processing unit 400, for incoming level signal, controlling electricity quantity display module display battery electric quantity number percent increases or reduces;

Electricity quantity display module 500, the number percent of battery electric quantity during for drawing the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

The system of detection of dynamic battery capacity of mobile terminal of the present invention, battery electric quantity detection module detects the battery electric quantity of two time points respectively, the battery electric quantity difference △ Q of two time points is calculated again by battery power amount calculation module, in electricity equivalent calculated module, the all corresponding battery electric quantity percent value of each battery electric quantity, the battery electric quantity percent value corresponding according to battery electric quantity difference △ Q, the battery electric quantity percentage difference of two time points can be drawn, after drawing difference, transmission level signal is to central processing unit, central processing unit incoming level signal, and then control electricity quantity display module increase or reduce battery electric quantity percent value to display, electricity quantity display module is according to the battery electric quantity percentage difference of two time points, draw battery electric quantity number percent during the second t2 detection time, show.Described system can when user's rapid charge or application power consumption high application time, accurately show battery electric quantity, ensure that user can the battery electric quantity of Obtaining Accurate current mobile terminal.

Further, the system of described detection of dynamic battery capacity of mobile terminal, wherein, in described battery electric quantity detection module, first detection time t1< second t2 detection time.In the present invention first detection time t1 be formerly, second detection time t2 rear, be in charging or in power consumption according to the difference of battery electric quantity known this period, convenient accurately show battery electric quantity.

Further, the system of described detection of dynamic battery capacity of mobile terminal, wherein, described battery power amount calculation module 200 comprises:

Electric comparator unit 201, for comparing the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal.In described system of the present invention, when battery power amount calculation module calculates battery electric quantity difference △ Q, need to judge that battery electric quantity is the increase in also to be reduction of, facilitate electricity equivalent calculated module to send different level signals, thus make central processing unit control the display increase of electricity quantity display module correspondence or reduce the display of battery electric quantity.

Further, the system of described detection of dynamic battery capacity of mobile terminal, wherein, described central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if reception low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.In described system of the present invention, central processing unit incoming level signal controls electricity quantity display module increases or reduces battery electric quantity number percent corresponding to battery electric quantity difference △ Q, user is facilitated to check battery electric quantity, wherein, during the first battery electric quantity Q1< second battery electric quantity Q2, explanation battery electric quantity adds, electric comparator unit sends high level signal to central processing unit, central processing unit receive the high level signal electricity number percent then controlled when electricity quantity display module shows the first t1 detection time add battery electric quantity percent value corresponding to battery electric quantity difference △ Q after battery electric quantity number percent, when the first battery electric quantity Q1> second battery electric quantity Q2 then describes battery electric quantity in minimizing, when therefore showing battery electric quantity number percent, battery electric quantity number percent during the first t1 detection time is needed to deduct percentage difference, so electric comparator unit sends low level signal to central processing unit, the central processing unit electricity number percent controlled when electricity quantity display module shows the first t1 detection time adds the battery electric quantity number percent after battery electric quantity percentage difference corresponding to battery electric quantity difference △ Q.

Further, the system of described detection of dynamic battery capacity of mobile terminal, wherein, described electricity equivalent calculated module 300 comprises:

Battery electric quantity percentage settings unit 301, for setting the corresponding relation of battery electric quantity and battery electric quantity number percent.Described system of the present invention, at battery electric quantity percentage settings unit, sets the battery electric quantity percent value that each battery electric quantity is corresponding, and convenient after getting battery electric quantity difference △ Q, correspondence obtains battery electric quantity percentage difference.

Preferred embodiment of the present invention, increases with battery electric quantity and reduces and illustrate respectively, and the electric quantity of lithium battery display of intelligent mobile terminal is the number percent increase of 1% or reduces, and when lithium battery is in rapid charge, the electricity of battery increases fast.Because battery electric quantity increase is very fast, when the display of its electricity is the number percent increase of 1%, the speed of the electricity display update of intelligent mobile terminal does not catch up with the speed of electric quantity of lithium battery increase.Same, when lithium battery is when using the application of large power consumption, the electricity of battery reduces fast, because battery electric quantity reduces very fast, when the display of its electricity is the number percent reduction of 1%, the speed of the electricity display update of intelligent mobile terminal does not catch up with the speed of electric quantity of lithium battery reduction.

When the electric quantity of lithium battery of mobile terminal increases fast, the electricity of accurately display lithium battery is needed to comprise the following steps: as shown in Figure 4, first, battery electric quantity detection module is set and detects the electricity of lithium battery when charging, electric quantity of lithium battery when being located at the first t1 detection time is the first battery electric quantity Q1, and the electric quantity of lithium battery when the second t2 detection time is the second battery electric quantity Q2.Lithium battery due to now intelligent mobile terminal is in the state of rapid charge, then, when the second detection time, t2 was greater than the first t1 detection time, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1.Then battery power amount calculation module by battery electric quantity detection module the first detection time the first battery electric quantity Q1 that t1 detects and t2 detects in the second detection time the second battery electric quantity Q2 compare calculating, the level signal exported by the electric comparator unit of battery power amount calculation inside modules judge battery power amount calculation module to second detection time t2 the second battery electric quantity Q2 and first detection time t1 the first battery electric quantity Q1 compare after electricity present the state of enlarging state or reduction, and then judge that the number percent that battery electric quantity shows increases or reduces.Because the lithium battery of intelligent mobile terminal is in charging, then battery power amount calculation module compare second detection time t2 the second battery electric quantity Q2 and first detection time t1 the first battery electric quantity Q1 after electricity be the state presenting increase, now battery power amount calculation inside modules electric comparator unit export high level signal.The battery electric quantity difference △ Q that second battery electric quantity Q2 and the first battery electric quantity Q1 compares is outputted to electricity equivalent calculated module by battery power amount calculation module, by second detection time t2 the second battery electric quantity Q2 and first detection time t1 the difference of the first battery electric quantity Q1 carry out some equivalent calculated, be set to △ Q1, △ Q2, △ Q3, , , △ Q (n-1), △ Qn, △ Q (n+1) ... corresponding each number percent waiting volume and electricity is 1%, even if the electricity of lithium battery is in quick increase like this, the number percent of electricity display also can increase progressively according to the numerical stability of the number percent 1% waiting volume and electricity, there will not be intelligent mobile terminal can not to upgrade in time the problem of electricity show percent due to reason that lithium battery rapid charge electricity increases fast, intelligent mobile terminal is when charging, the high level signal of the electric comparator unit output of battery power amount calculation inside modules is to central processing unit, request central processing unit controls the electricity quantity display module of intelligent mobile terminal and to upgrade in time the electricity number percent increased progressively, volume and electricity △ Q1 is waited according to the some of electricity equivalent calculated module output, △ Q2, △ Q3, , , △ Q (n-1), △ Qn, △ Q (n+1) ... corresponding number percent 1% up increases progressively, as shown in Figure 5, for the Signal transmissions graph of a relation between central processing unit and electricity quantity display module, central processing unit recalls command signal 1 according to the high level signal that the electric comparator unit of battery power amount calculation inside modules exports and exports control signal 1 electricity quantity display module to intelligent mobile terminal, and the number percents 1% controlling some volume and electricities such as grade that its electricity show percent exports according to electricity equivalent calculated module corresponding up increase progressively.

In like manner, when the electric quantity of lithium battery of mobile terminal reduces fast, as shown in Figure 6, battery electric quantity detection module is set and detects the electricity of lithium battery when charging, electric quantity of lithium battery when being located at the 3rd t3 detection time is the 3rd battery electric quantity Q3, and the electric quantity of lithium battery when the 4th t4 detection time is the 4th battery electric quantity Q4.Lithium battery due to now intelligent mobile terminal is in the state of rapid discharge, then, when the 4th detection time, t4 was greater than the 3rd t3 detection time, the 4th battery electric quantity Q4 is less than the 3rd battery electric quantity Q3.Then battery power amount calculation module by battery electric quantity detection module the 3rd detection time the 3rd battery electric quantity Q3 that t3 detects and t4 detects in the 4th detection time the 4th battery electric quantity Q4 compare calculating, the level signal exported by the electric comparator unit of battery power amount calculation inside modules judge battery power amount calculation module to the 4th detection time t4 the 4th battery electric quantity Q4 and the 3rd detection time t3 the 3rd battery electric quantity Q3 compare after electricity present the state of enlarging state or reduction, and then judge that the number percent that battery electric quantity shows increases or reduces.Because the lithium battery of intelligent mobile terminal is in rapid discharge, then battery power amount calculation module compare the 4th detection time t4 the 4th battery electric quantity Q4 and the 3rd detection time t3 the 3rd battery electric quantity Q3 after electricity be the state presenting minimizing, the now electric comparator unit output low level signal of battery power amount calculation inside modules.The battery electric quantity difference △ Q ' that 4th battery electric quantity Q4 and the 3rd battery electric quantity Q3 compares is outputted to electricity equivalent calculated module by battery power amount calculation module, by the 4th detection time t4 the 4th battery electric quantity Q4 and the 3rd detection time t3 the difference of the 3rd battery electric quantity Q3 carry out some equivalent calculated, be set to △ Q1, △ Q2, △ Q3, , , △ Q (n-1), △ Qn, △ Q (n+1) ... corresponding each number percent waiting volume and electricity is 1%, even if the electricity of lithium battery is in quick reduction like this, the number percent of electricity display also can successively decrease according to the numerical stability of the number percent 1% waiting volume and electricity, there will not be intelligent mobile terminal can not to upgrade in time the problem of electricity show percent due to reason that lithium battery rapid discharge electricity reduces fast, intelligent mobile terminal is when discharging, the low level signal of the electric comparator unit output of battery power amount calculation inside modules is to central processing unit, request central processing unit controls the electricity quantity display module of intelligent mobile terminal and to upgrade in time the electricity number percent successively decreased, volume and electricity △ Q1 is waited according to the some of electricity equivalent calculated module output, △ Q2, △ Q3, , , △ Q (n-1), △ Qn, △ Q (n+1) ... corresponding number percent 1% up successively decreases, as shown in Figure 7, for the Signal transmissions graph of a relation between central processing unit and electricity quantity display module, central processing unit recalls command signal 2 according to the low level signal that the electric comparator unit of battery power amount calculation inside modules exports and exports control signal 2 electricity quantity display module to intelligent mobile terminal, and the number percents 1% controlling some volume and electricities such as grade that its electricity show percent exports according to electricity equivalent calculated module corresponding down successively decrease.

Further, the present invention also provides a kind of method of detection of dynamic battery capacity of mobile terminal, as shown in Figure 8, is the flow chart of steps of described method, wherein, comprises step:

S1, the second battery electric quantity Q2 when obtaining the first battery electric quantity Q1 of mobile terminal when the first t1 detection time and the second t2 detection time;

S2, calculate the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

S3, show that the difference of corresponding battery electric quantity number percent is concurrent according to battery electric quantity difference △ Q and send level signal;

S4, incoming level signal, battery electric quantity number percent when controlling for the second detection time increases or reduces;

The number percent of S5, battery electric quantity when to draw the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

Further, the method for described detection of dynamic battery capacity of mobile terminal, wherein, in described step S1, first detection time t1< second t2 detection time.

Further, the method for described detection of dynamic battery capacity of mobile terminal, wherein, described step S2 comprises:

S201, judge the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, and the second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal;

Further, the method of described detection of dynamic battery capacity of mobile terminal, wherein, in described step S3, described central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if receive low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.

Further, the method for described detection of dynamic battery capacity of mobile terminal, wherein, described step S3 also comprises:

The corresponding relation of S301, setting battery electric quantity and battery electric quantity number percent.

The concrete implementing procedure of described method of the present invention describes in detail in systems in which, therefore does not repeat at this.

In sum, the present invention is by the first battery electric quantity Q1 at t1 detection the first detection time mobile terminal, second detection time t2 detect the second battery electric quantity Q2, relatively the first battery electric quantity Q1 and the second battery electric quantity Q2, draw battery electric quantity difference △ Q, the difference of corresponding battery electric quantity number percent is drawn according to battery electric quantity difference △ Q, when the first battery electric quantity Q1 is less than the second battery electric quantity Q2, central processing unit controls electricity quantity display module display electricity number percent to be increased, recruitment is the battery electric quantity percentage difference that battery electric quantity difference △ Q is corresponding, and when the first battery electric quantity Q1 is greater than the second battery electric quantity Q2, central processing unit controls electricity quantity display module display electricity number percent to be reduced, reducing amount is the battery electric quantity percentage difference that battery electric quantity difference △ Q is corresponding, the present invention is by obtaining the relation of battery electric quantity and battery electric quantity number percent, when obtaining battery electric quantity and changing, the changing value of battery electric quantity is converted to corresponding battery electric quantity percent change value, and show, ensure that user is when rapid charge or quick electricity consumption, can Obtaining Accurate mobile terminal electricity.

Should be understood that, application of the present invention is not limited to above-mentioned citing, for those of ordinary skills, can be improved according to the above description or convert, and all these improve and convert the protection domain that all should belong to claims of the present invention.

Claims (10)

1. a system for detection of dynamic battery capacity of mobile terminal, is characterized in that, comprising:

Battery electric quantity detection module, the second battery electric quantity Q2 during the first battery electric quantity Q1 during for detecting the first t1 detection time and the second t2 detection time;

Battery power amount calculation module, for calculating the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

Electricity equivalent calculated module, send level signal for showing that according to battery electric quantity difference △ Q the difference of corresponding battery electric quantity number percent is concurrent;

Central processing unit, for incoming level signal, controlling electricity quantity display module display battery electric quantity number percent increases or reduces;

Electricity quantity display module, the number percent of battery electric quantity during for drawing the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

2. the system of detection of dynamic battery capacity of mobile terminal according to claim 1, is characterized in that, in described battery electric quantity detection module, first detection time t1< second t2 detection time.

3. the system of detection of dynamic battery capacity of mobile terminal according to claim 1, is characterized in that, described battery power amount calculation module comprises:

Electric comparator unit, for comparing the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal.

4. the system of detection of dynamic battery capacity of mobile terminal according to claim 1, it is characterized in that, described central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if reception low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.

5. the system of detection of dynamic battery capacity of mobile terminal according to claim 1, is characterized in that, described electricity equivalent calculated module comprises:

Battery electric quantity percentage settings unit, for setting the corresponding relation of battery electric quantity and battery electric quantity number percent.

6. a method for detection of dynamic battery capacity of mobile terminal, is characterized in that, comprises step:

A, the second battery electric quantity Q2 when obtaining the first battery electric quantity Q1 of mobile terminal when the first t1 detection time and the second t2 detection time;

B, calculate the battery electric quantity difference △ Q of the first battery electric quantity Q1 and the second battery electric quantity Q2;

C, show that the difference of corresponding battery electric quantity number percent is concurrent according to battery electric quantity difference △ Q and send level signal;

D, incoming level signal, battery electric quantity number percent when controlling for the second detection time increases or reduces;

The number percent of E, battery electric quantity when to draw the second t2 detection time according to the difference of battery electric quantity number percent during the first t1 detection time and battery electric quantity number percent, and show.

7. the method for detection of dynamic battery capacity of mobile terminal according to claim 6, is characterized in that, in described steps A, first detection time t1< second t2 detection time.

8. the method for detection of dynamic battery capacity of mobile terminal according to claim 6, is characterized in that, described step B comprises:

B1, judge the size of the first battery electric quantity Q1 and the second battery electric quantity Q2, the second battery electric quantity Q2 is greater than the first battery electric quantity Q1, then send high level signal, and the second battery electric quantity Q2 is less than the first battery electric quantity Q1, then send low level signal.

9. according to the method for detection of dynamic battery capacity of mobile terminal according to claim 6, it is characterized in that, in described step C, central processing unit receives high level signal, then control the difference that electricity quantity display module display battery electric quantity number percent increases corresponding battery electric quantity number percent, if reception low level signal, then control the difference that electricity quantity display module display battery electric quantity number percent reduces corresponding battery electric quantity number percent.

10. the method for detection of dynamic battery capacity of mobile terminal according to claim 6, is characterized in that, described step C also comprises:

The corresponding relation of C1, setting battery electric quantity and battery electric quantity number percent.