CN109347163A - Charging method, mobile power source and computer storage medium - Google Patents
Charging method, mobile power source and computer storage medium Download PDFInfo
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- CN109347163A CN109347163A CN201811270964.2A CN201811270964A CN109347163A CN 109347163 A CN109347163 A CN 109347163A CN 201811270964 A CN201811270964 A CN 201811270964A CN 109347163 A CN109347163 A CN 109347163A
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- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/007—Regulation of charging or discharging current or voltage
- H02J7/00712—Regulation of charging or discharging current or voltage the cycle being controlled or terminated in response to electric parameters
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- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/42—Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
- H01M10/44—Methods for charging or discharging
- H01M10/441—Methods for charging or discharging for several batteries or cells simultaneously or sequentially
-
- H—ELECTRICITY
- H01—ELECTRIC ELEMENTS
- H01M—PROCESSES OR MEANS, e.g. BATTERIES, FOR THE DIRECT CONVERSION OF CHEMICAL ENERGY INTO ELECTRICAL ENERGY
- H01M10/00—Secondary cells; Manufacture thereof
- H01M10/42—Methods or arrangements for servicing or maintenance of secondary cells or secondary half-cells
- H01M10/44—Methods for charging or discharging
- H01M10/446—Initial charging measures
-
- H—ELECTRICITY
- H02—GENERATION; CONVERSION OR DISTRIBUTION OF ELECTRIC POWER
- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J7/00—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries
- H02J7/0013—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries acting upon several batteries simultaneously or sequentially
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- Y—GENERAL 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
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/10—Energy storage using batteries
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Manufacturing & Machinery (AREA)
- Chemical & Material Sciences (AREA)
- Chemical Kinetics & Catalysis (AREA)
- Electrochemistry (AREA)
- General Chemical & Material Sciences (AREA)
- Secondary Cells (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The embodiment of the present application discloses a kind of charging method, mobile power source and computer storage medium, and above-mentioned charging method includes: to obtain the corresponding discharge voltage of charging equipment by the communication with charging equipment after establishing connection with charging equipment;Wherein, discharge voltage is characterized to output voltage when setting electric discharge to be charged;According to discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage difference is determined;Wherein, the first default discharge voltage is less than the second default discharge voltage;Discharge mode is determined according to voltage difference;Wherein, discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It discharges according to discharge mode to charging equipment.
Description
Technical field
The invention relates to the discharge technology of mobile power source more particularly to a kind of charging methods, mobile power source and meter
Calculation machine storage medium.
Background technique
The capacity of mobile power source is supplied by internal charge storage unit, and charge storage unit is battery core.Currently, common movement
Power supply can be divided into single battery core and double two kinds of battery cores, and as its name suggests, the mobile power source of single battery core configures a battery core, capacity compared with
It is small;The mobile power source of double battery cores is the battery core for configuring two serial or parallel connections, and capacity is larger.Therefore, double battery core mobile power sources
Cell voltage can be twice of single battery core mobile power source cell voltage.
Although double battery core mobile power sources can provide bigger discharge voltage for charging equipment, however, to be charged ought set
When smaller for required discharge voltage, when being discharged using double battery core mobile power sources charging equipment, since voltage turns
The pressure difference for changing front and back is larger, will lead to the low defect of voltage conversion efficiency, increases the loss of electricity, reduce mobile power source
Intelligence.
Summary of the invention
The embodiment of the present application provides a kind of charging method, mobile power source and computer storage medium, can reduce voltage and turn
The pressure difference of front and back is changed, and then voltage conversion efficiency can be improved, reduces the loss of electricity, to improve the intelligence of mobile power source
Property.
The technical solution of the embodiment of the present application is achieved in that
The embodiment of the present application provides a kind of charging method, which comprises
After establishing connection with charging equipment, described to be charged set is obtained by communication with the charging equipment
Standby corresponding discharge voltage;Wherein, the discharge voltage is characterized to the output voltage when setting electric discharge to be charged;
According to the discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage difference is determined;Its
In, the first default discharge voltage is less than the described second default discharge voltage;
Discharge mode is determined according to the voltage difference;Wherein, the discharge mode to the charging equipment for putting
The quantity of battery core is determined when electric;
It discharges according to the discharge mode to the charging equipment.
Optionally, the voltage difference includes first voltage difference and second voltage difference, described according to the electric discharge electricity
Pressure, the first default discharge voltage and the second default discharge voltage, determine voltage difference, comprising:
According to the discharge voltage and the first default discharge voltage, the first voltage difference is obtained;
According to the discharge voltage and the second default discharge voltage, the second voltage difference is obtained.
Optionally, the discharge mode includes the first discharge mode and the second discharge mode, wherein the first electric discharge mould
The corresponding battery core quantity of formula is less than the corresponding battery core quantity of second discharge mode, described to be put according to voltage difference determination
Power mode, comprising:
When the first voltage difference is less than or equal to the second voltage difference, determine the discharge mode for institute
State the first discharge mode;
When the first voltage difference is greater than the second voltage difference, determine that the discharge mode is put for described second
Power mode.
Optionally, when the discharge mode is first discharge mode, it is described according to the discharge mode to described
Charging equipment discharges
Buck processing is carried out to the described first default discharge voltage according to the discharge voltage, obtains target voltage;
It discharges according to the target voltage to the charging equipment.
Optionally, when the discharge mode is second discharge mode, it is described according to the discharge mode to described
Charging equipment discharges
Buck processing is carried out to the described second default discharge voltage according to the discharge voltage, obtains the target electricity
Pressure;
It discharges according to the target voltage to the charging equipment.
Optionally, described according to the discharge voltage, the first default discharge voltage and the second default discharge voltage, it determines
Before voltage difference, the method also includes:
Voltage detecting is carried out to battery core, obtains the first default discharge voltage and the second default discharge voltage.
Optionally, it is described according to the discharge mode to the charging equipment electric discharge after, the method also includes:
Equilibrium treatment is carried out to the battery core;Wherein, the equilibrium treatment is used to carry out the balance of voltage to the battery core.
The embodiment of the present application proposes a kind of mobile power source, and the mobile power source includes: acquiring unit, determination unit and
Discharge cell,
The acquiring unit, for after establishing connection with charging equipment, by logical with the charging equipment
Letter obtains the corresponding discharge voltage of the charging equipment;Wherein, the discharge voltage is characterized discharges to the setting to be charged
When output voltage;
The determination unit, for according to the default electric discharge electricity of the discharge voltage, the first default discharge voltage and second
Pressure, determines voltage difference;Wherein, the described first default discharge voltage is less than the described second default discharge voltage;And according to institute
It states voltage difference and determines discharge mode;Wherein, to the number of battery core when the discharge mode is used to discharge to the charging equipment
Amount is determined;
The discharge cell, for discharging according to the discharge mode to the charging equipment.
Optionally, the voltage difference includes first voltage difference and second voltage difference,
The determination unit is specifically used for according to the discharge voltage and the first default discharge voltage, described in acquisition
First voltage difference;And according to the discharge voltage and the second default discharge voltage, obtain the second voltage difference.
Optionally, the discharge mode includes the first discharge mode and the second discharge mode, wherein the first electric discharge mould
The corresponding battery core quantity of formula is less than the corresponding battery core quantity of second discharge mode,
The determination unit is less than or equal to the second voltage difference also particularly useful for when the first voltage difference
When, determine that the discharge mode is first discharge mode;And when the first voltage difference is greater than the second voltage
When difference, determine that the discharge mode is second discharge mode.
Optionally, the discharge cell is specifically used for when the discharge mode is first discharge mode, according to described
Discharge voltage carries out buck processing to the described first default discharge voltage, obtains target voltage;And according to the target electricity
Press to the charging equipment electric discharge;
The discharge cell is put also particularly useful for when the discharge mode is second discharge mode according to described
Piezoelectric voltage carries out buck processing to the described second default discharge voltage, obtains the target voltage;And according to the target
Voltage discharges to the charging equipment.
Optionally, the acquiring unit is also used to pre- according to the discharge voltage, the first default discharge voltage and second
If discharge voltage, before determining voltage difference, voltage detecting is carried out to battery core, obtains the first default discharge voltage and described
Second default discharge voltage.
Optionally, the mobile power source further include: balanced unit,
The balanced unit, after discharging according to the discharge mode to the charging equipment, to the battery core
Carry out equilibrium treatment;Wherein, the equilibrium treatment is used to carry out the balance of voltage to the battery core.
The embodiment of the present application proposes a kind of mobile power source, and the mobile power source includes processor, is stored with the processing
The memory of device executable instruction;When executed, electric discharge side as described above is realized when the processor executes
Method.
The embodiment of the present application proposes a kind of computer readable storage medium, is stored thereon with program, is applied to mobile electricity
Charging method as described above is realized in source, when described program is executed by processor.
The embodiment of the present application provides a kind of charging method, mobile power source and computer storage medium, with charging equipment
It establishes after connection, mobile power source obtains the corresponding discharge voltage of charging equipment by communication with charging equipment;Wherein,
Discharge voltage is characterized to output voltage when setting electric discharge to be charged;According to discharge voltage, the first default discharge voltage and
Two default discharge voltages, determine voltage difference;Wherein, the first default discharge voltage is less than the second default discharge voltage;According to electricity
Pressure difference determines discharge mode;Wherein, discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It presses
It discharges according to discharge mode to charging equipment.It can be seen that the charging method that originally please be propose, mobile power source can determine to
After the discharge voltage of charging equipment, according to the battery core number of the voltage difference selection electric discharge between discharge voltage and the voltage of battery core
Amount, then discharges to charging equipment.That is, in embodiments herein, although mobile power source is configured with two
A battery core, but mobile power source can be according to the corresponding discharge voltage of charging equipment in the first discharge mode and the second electric discharge mould
The selection of discharge mode is carried out in formula, to discharge by the discharge mode being more suitable, can reduce voltage conversion front and back
Pressure difference, and then voltage conversion efficiency can be improved, reduces the loss of electricity, to improve the intelligence of mobile power source.
Detailed description of the invention
Fig. 1 is a kind of implementation process schematic diagram for charging method that the embodiment of the present application proposes;
Fig. 2 is mobile power source electric discharge schematic diagram one in the embodiment of the present application;
Fig. 3 is mobile power source electric discharge schematic diagram two in the embodiment of the present application;
Fig. 4 is mobile power source electric discharge schematic diagram three in the embodiment of the present application;
Fig. 5 is the composed structure schematic diagram one for the mobile power source that the embodiment of the present application proposes;
Fig. 6 is the composed structure schematic diagram two for the mobile power source that the embodiment of the present application proposes.
Specific embodiment
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description.It is understood that specific embodiment described herein is used only for explaining related application, rather than to this application
Restriction.It also should be noted that illustrating only part relevant to related application for ease of description, in attached drawing.
In embodiments herein, mobile power source may include power control, wherein power control can be with
Including crust of the device, crust of the device is provided with power input interface, power output interface and the first contact feed point, power input and connects
Mouth and power output interface are electrically connected with the first contact feed point, for controlling mobile power source charge and discharge.
Mobile power source can also include at least one battery unit, wherein each battery unit includes battery, for accommodating
The battery case of battery, second be electrically connected with battery contact feed point and third contacts feed point;Third contact feed point be used for it is another
Second contact feed point contact conducting of one battery unit.Power control is connected with battery unit, power control and institute
When stating battery unit connection, the conducting corresponding with the second contact feed point of a battery unit of the first contact feed point.
Need to illustrate when, can be applied to configuration there are two battery core, i.e., in the charging method that the embodiment of the present application proposes
In mobile power source configured with two pieces of batteries.
Below in conjunction with the attached drawing in the embodiment of the present application, technical solutions in the embodiments of the present application carries out clear, complete
Site preparation description.
One embodiment of the application provides a kind of charging method, which is applied in mobile power source, wherein above-mentioned
There are two battery core, i.e., above-mentioned mobile power source is double battery core mobile power sources for mobile power source configuration;Fig. 1 is what the embodiment of the present application proposed
A kind of implementation process schematic diagram of charging method, as shown in Figure 1, above-mentioned mobile power source is put in embodiments herein
The method of electricity may comprise steps of:
Step 101, after establishing connection with charging equipment, to be charged set is obtained by communication with charging equipment
Standby corresponding discharge voltage;Wherein, discharge voltage is characterized to output voltage when setting electric discharge to be charged.
In embodiments herein, mobile power source after establishing connection with charging equipment, can first with it is to be charged
Equipment is communicated, and the corresponding discharge voltage of above-mentioned charging equipment is then obtained.
It should be noted that in embodiments herein, above-mentioned discharge voltage can characterize above-mentioned mobile power source to
The output voltage exported when above-mentioned setting electric discharge to be charged.
It should be noted that above-mentioned mobile power source can be double electricity with two battery cores in embodiments herein
Core mobile power source, specifically, two battery cores in mobile power source can be series connection.
Further, in embodiments herein, charge and discharge integrated circuit can be configured in above-mentioned mobile power source
(Integrated Circuit, IC), specifically, mobile power source can be boosted or are depressured by charge and discharge IC.
It should be noted that above-mentioned mobile power source can pass through charge and discharge when being discharged in embodiments herein
Electric IC carries out buck processing to cell voltage, to obtain target voltage, and is set according to target voltage to the to be charged of access
It is standby to charge.
Further, in this application, above-mentioned charging equipment is the charging equipment that can be connect with mobile power source, example
Such as, charging equipment can be any charging equipment for having communication and store function, such as: tablet computer, mobile phone, electronics
Reader, remote controler, personal computer (Personal Computer, PC), laptop, mobile unit, Web TV,
The charging equipments such as wearable device.
It should be noted that above-mentioned charging equipment is configured with communication interface, such as general string in embodiments herein
Row bus (Universal Serial Bus, USB) interface, therefore, charging equipment can pass through communication interface and mobile electricity
Source is established connection and is communicated.
Further, in embodiments herein, above-mentioned mobile power source and charging equipment are established after connection, right
When the corresponding discharge voltage of charging equipment is detected, to be charged set can be determined by the communication interface of charging equipment
Standby corresponding charge protocol, to determine discharge voltage according to charge protocol.
It should be noted that above-mentioned discharge voltage is mobile power source to charging equipment in embodiments herein
Required output voltage values when being charged, therefore, mobile power source need to export the target to match with discharge voltage
Voltage charges to charging equipment.
Further, in embodiments herein, if above-mentioned mobile power source and charging equipment are built by USB interface
Vertical connection, then mobile power source can be assisted by the charging that the D+ and D- recognition and verification charging equipment of charging equipment is supported
View, so as to further confirm the corresponding discharge voltage of charging equipment according to charge protocol.
Step 102, according to discharge voltage, the first default discharge voltage and the second default discharge voltage, determine voltage difference
Value.
In embodiments herein, above-mentioned mobile power source is establishing connection with charging equipment, and by with it is to be charged
It, can be according to discharge voltage, the first default electric discharge electricity after the communication of equipment obtains the corresponding discharge voltage of charging equipment
Pressure and the second default discharge voltage, appropriate voltage difference out.
Further, in embodiments herein, above-mentioned mobile power source is according to discharge voltage, the first default electric discharge electricity
Pressure and the second default discharge voltage, before determining voltage difference, mobile power source can carry out voltage detecting to battery core, obtain the
One default discharge voltage and the second default discharge voltage.
It should be noted that there are two battery cores for above-mentioned mobile power source configuration, therefore can examine in embodiments herein
It surveys and obtains the corresponding battery core voltage of two battery cores, i.e., the first default discharge voltage, wherein a battery core is one first corresponding
Default discharge voltage.
Further, in embodiments herein, above-mentioned mobile power source can also obtain the sum of the voltage of two battery cores,
I.e. second default discharge voltage.It should be noted that the first default discharge voltage can be less than in embodiments herein
Two default discharge voltages.
It should be noted that above-mentioned mobile power source can be configured with equalizing circuit, therefore can in embodiments herein
Equilibrium treatment is carried out with the voltage to two battery cores, so that the voltage of two battery cores keeps identical, i.e., mobile power source is examined
It is identical for surveying the first default discharge voltage of the different battery cores obtained.
Further, in embodiments herein, above-mentioned mobile power source is determining discharge voltage, the first default electric discharge electricity
After pressure and the second default discharge voltage, can respectively according to discharge voltage and the first default discharge voltage, discharge voltage and
Second default discharge voltage determines voltage difference.
It should be noted that above-mentioned voltage difference may include that discharge voltage and first are pre- in embodiments herein
It can also include the difference between discharge voltage and the second default discharge voltage if the difference between discharge voltage.
Step 103 determines discharge mode according to voltage difference;Wherein, when discharge mode is used to discharge to charging equipment
The quantity of battery core is determined.
In embodiments herein, above-mentioned mobile power source is according to discharge voltage, the first default discharge voltage and
Two default discharge voltages after determining voltage difference, can further determine that discharge mode according to voltage difference.
It should be noted that above-mentioned discharge mode can be used for discharging to charging equipment in embodiments herein
When the quantity of battery core is determined, i.e., discharge mode can be used for selecting the battery core quantity of electric discharge.That is, putting
Power mode is determined for discharging using single battery core, or is discharged using double battery cores.
Further, in embodiments herein, above-mentioned discharge mode may include that the first discharge mode and second are put
Power mode.That is, in embodiments herein, even if mobile power source is battery core there are two configurations, but mobile power source
Intelligent selection can be carried out to discharge mode when being discharged, i.e., can both be discharged, can also be led to by some battery core
Two battery cores are crossed to discharge.
It should be noted that above-mentioned mobile power source is determining electric discharge mould according to voltage difference in embodiments herein
It, can be to the difference and discharge voltage and the second default electric discharge electricity between discharge voltage and the first default discharge voltage when formula
Difference between pressure is compared, so as to determine discharge mode according to comparison result.
Step 104 is discharged according to discharge mode to charging equipment.
In embodiments herein, above-mentioned mobile power source, can be by after determining discharge mode according to voltage difference
It discharges according to discharge mode to charging equipment.
Further, in embodiments herein, above-mentioned mobile power source, can basis after determining discharge mode
Discharge mode discharges, i.e., after being determined according to voltage difference using the first discharge mode or the second discharge mode,
It can discharge according to the first discharge mode or the second discharge mode charging equipment.
Fig. 2 is mobile power source electric discharge schematic diagram one in the embodiment of the present application, as shown in Fig. 2, in the electric discharge electricity of mobile power source
Lu Zhong, mobile power source is configured with micro-control unit (Microcontroller Unit, MCU), battery core 1 and battery core 2, mobile electricity
Source can choose path 1 and be communicated by data line D+ and D- with charging equipment, and switch 1 and switch 2 are used for electric discharge mould
The selection of formula, specifically, if desired then passage path 2 turns on the switch for double battery core outputs, and on the contrary then passage path 3 turns on the switch.
In embodiments herein, further, above-mentioned mobile power source discharges according to discharge mode to charging equipment
Later, i.e., after step 104, the method that mobile power source discharges is further comprising the steps of:
Step 105 carries out equilibrium treatment to battery core;Wherein, equilibrium treatment is used to carry out the balance of voltage to battery core.
In embodiments herein, above-mentioned mobile power source is carrying out discharging it to charging equipment according to discharge mode
Afterwards, equilibrium treatment can be carried out to battery core.
Further, in embodiments herein, above-mentioned equilibrium treatment can be used for carrying out electric voltage equalization to battery core.
Further, in embodiments herein, above-mentioned equilibrium treatment can also include carrying out electric quantity balancing to battery core
Processing.
It should be noted that in embodiments herein, if discharge mode is the first discharge mode, it is mobile
For power supply after discharging charging equipment, the voltage and electricity of two battery cores in mobile power source just no longer guarantee phase
Together, but difference is produced, therefore, above-mentioned mobile power source needs the voltage and electricity progress equilibrium treatment to two battery cores.
Further, in embodiments herein, it is based on above-mentioned Fig. 2, Fig. 3 is that mobile power source is put in the embodiment of the present application
Electrical schematic two, as shown in figure 3, being configured with active equalization module in the discharge circuit of mobile power source, active equalization module passes through
Path 4 and 5 come from battery core 1 take electricity supplement battery core 2 electricity, with guarantee two battery cores voltage electricity keep in balance.
A kind of charging method that the embodiment of the present application proposes, after establishing connection with charging equipment, mobile power source is logical
It crosses communication with charging equipment and obtains the corresponding discharge voltage of charging equipment;Wherein, discharge voltage is characterized sets to be charged
Put output voltage when electricity;According to discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage is determined
Difference;Wherein, the first default discharge voltage is less than the second default discharge voltage;Discharge mode is determined according to voltage difference;Wherein,
Discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It is put according to discharge mode to charging equipment
Electricity.It can be seen that the charging method that originally please be propose, mobile power source can after determining the discharge voltage of charging equipment,
According to the battery core quantity of the voltage difference selection electric discharge between discharge voltage and the voltage of battery core, then charging equipment is carried out
Electric discharge.That is, in embodiments herein, although mobile power source configuration, there are two battery core, mobile power source can be with
The selection of discharge mode is carried out in the first discharge mode and the second discharge mode according to the corresponding discharge voltage of charging equipment,
To discharge by the discharge mode being more suitable, the pressure difference of voltage conversion front and back can be reduced, and then voltage can be improved
Transfer efficiency, reduces the loss of electricity, to improve the intelligence of mobile power source.
Based on the above embodiment, in another embodiment of the application, the voltage difference include first voltage difference and
Second voltage difference, above-mentioned mobile power source is according to the default electric discharge electricity of the discharge voltage, the first default discharge voltage and second
Pressure, the method for determining voltage difference may comprise steps of:
Step 102a, according to discharge voltage and the first default discharge voltage, first voltage difference is obtained.
In embodiments herein, above-mentioned mobile power source after determining discharge voltage and the first default discharge voltage,
First voltage difference can be obtained according to discharge voltage and the first default discharge voltage.
It should be noted that above-mentioned voltage difference may include that discharge voltage and first are pre- in embodiments herein
If the first voltage difference between discharge voltage.
Further, in embodiments herein, above-mentioned mobile power source can be to discharge voltage and the first default electric discharge
Voltage carries out difference operation, further determines that first voltage difference so as to the result according to difference operation.
Further, in embodiments herein, above-mentioned mobile power source can be by discharge voltage and the first default electric discharge
The absolute value of the corresponding difference operation result of voltage, is determined as first voltage difference.For example, discharge voltage is 5V, first is default
Discharge voltage is 4V, then first voltage difference is 1V.
Step 102b, according to discharge voltage and the second default discharge voltage, second voltage difference is obtained.
In embodiments herein, above-mentioned mobile power source after determining discharge voltage and the second default discharge voltage,
Second voltage difference can be obtained according to discharge voltage and the second default discharge voltage.
It should be noted that above-mentioned voltage difference can also include discharge voltage and second in embodiments herein
Second voltage difference between default discharge voltage.
Further, in embodiments herein, above-mentioned mobile power source can be to discharge voltage and the second default electric discharge
Voltage carries out difference operation, further determines that second voltage difference so as to the result according to difference operation.
Further, in embodiments herein, above-mentioned mobile power source can be by discharge voltage and the second default electric discharge
The absolute value of the corresponding difference operation result of voltage, is determined as second voltage difference.For example, discharge voltage is 5V, second is default
Discharge voltage is 6.8V, then first voltage difference is 1.8V.
Further, in embodiments herein, the discharge mode includes the first discharge mode and the second electric discharge mould
Formula, wherein the corresponding battery core quantity of first discharge mode is less than the corresponding battery core quantity of second discharge mode, mobile
Power supply may comprise steps of according to the method that the voltage difference determines discharge mode:
Step 103a, when first voltage difference is less than or equal to second voltage difference, determine that discharge mode is first
Discharge mode.
In embodiments herein, above-mentioned mobile power source is according to discharge voltage, the first default discharge voltage and
Two default discharge voltages determine voltage difference respectively, that is, after determining first voltage difference and second voltage difference, if the
One voltage difference is more than or equal to second voltage difference, then discharge mode can be determined as to the first discharge mode.
It should be noted that above-mentioned discharge mode can be according to electric discharge battery core quantity not in embodiments herein
It is same to be divided into the first discharge mode and the second discharge mode, wherein the corresponding battery core quantity of the first discharge mode is less than the second electric discharge
The corresponding battery core quantity of mode.
Further, in embodiments herein, above-mentioned mobile power source is determining first voltage difference and the second electricity
After pressure difference, to first voltage difference and second voltage difference and can be compared, so as to according to comparison result into
One step determines discharge mode.
Further, in embodiments herein, above-mentioned mobile power source is poor by first voltage difference and second voltage
After being worth and being compared, when first voltage difference is more than or equal to second voltage difference, mobile charging equipment can be with
Think that discharge voltage is more nearly the first default discharge voltage, it can be more suitable for making when illustrating to discharge to charging equipment
With the first discharge mode, therefore discharge mode can be determined as the first discharge mode by mobile power source.
Step 103b, when first voltage difference is greater than second voltage difference, determine that discharge mode is the second discharge mode.
In embodiments herein, above-mentioned mobile power source is according to discharge voltage, the first default discharge voltage and
Two default discharge voltages determine voltage difference respectively, that is, after determining first voltage difference and second voltage difference, if the
One voltage difference is greater than second voltage difference, then discharge mode can be determined as to the second discharge mode.
Further, in embodiments herein, above-mentioned mobile power source is determining first voltage difference and the second electricity
After pressure difference, to first voltage difference and second voltage difference and can be compared, so as to according to comparison result into
One step determines discharge mode.
Further, in embodiments herein, above-mentioned mobile power source is poor by first voltage difference and second voltage
After being worth and being compared, when first voltage difference is greater than second voltage difference, mobile charging equipment can consider electric discharge
Voltage is more nearly the second default discharge voltage, it can is more suitable for putting using second when illustrating to discharge to charging equipment
Power mode, therefore discharge mode can be determined as the second discharge mode by mobile power source.
A kind of charging method that the embodiment of the present application proposes, after establishing connection with charging equipment, mobile power source is logical
It crosses communication with charging equipment and obtains the corresponding discharge voltage of charging equipment;Wherein, discharge voltage is characterized sets to be charged
Put output voltage when electricity;According to discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage is determined
Difference;Wherein, the first default discharge voltage is less than the second default discharge voltage;Discharge mode is determined according to voltage difference;Wherein,
Discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It is put according to discharge mode to charging equipment
Electricity.It can be seen that the charging method that originally please be propose, mobile power source can after determining the discharge voltage of charging equipment,
According to the battery core quantity of the voltage difference selection electric discharge between discharge voltage and the voltage of battery core, then charging equipment is carried out
Electric discharge.That is, in embodiments herein, although mobile power source configuration, there are two battery core, mobile power source can be with
The selection of discharge mode is carried out in the first discharge mode and the second discharge mode according to the corresponding discharge voltage of charging equipment,
To discharge by the discharge mode being more suitable, the pressure difference of voltage conversion front and back can be reduced, and then voltage can be improved
Transfer efficiency, reduces the loss of electricity, to improve the intelligence of mobile power source.
In embodiments herein, further, when the discharge mode is first discharge mode, above-mentioned shifting
Dynamic power supply may comprise steps of according to the discharge mode to the method that the charging equipment discharges:
Step 104a, buck processing is carried out to the first default discharge voltage according to discharge voltage, obtains target voltage.
In embodiments herein, above-mentioned mobile power source is after determining discharge mode according to voltage difference, if put
Power mode is the first discharge mode, then mobile power source can carry out buck to the first default discharge voltage according to discharge voltage
Processing, so that target voltage can be obtained.
It should be noted that above-mentioned mobile power source is determining that discharge mode is the first electric discharge in embodiments herein
After mode, buck processing can be carried out according to discharge voltage, by charge and discharge IC, to obtain target voltage.
Further, in embodiments herein, it is based on above-mentioned Fig. 3, Fig. 4 is that mobile power source is put in the embodiment of the present application
Electrical schematic three, as shown in figure 4, charge and discharge IC is configured in the discharge circuit of mobile power source, it can be to the first default electric discharge electricity
Pressure or the second default discharge voltage carry out buck processing, then carry out output electric discharge again.For example, discharge voltage is 5V, the
One default discharge voltage is 4V, then need to carry out boosting processing to the first default discharge voltage according to discharge voltage, acquisition
Target voltage is 5V.
Step 104b, it discharges according to target voltage to charging equipment.
In embodiments herein, above-mentioned mobile power source is rising the first default discharge voltage according to discharge voltage
Decompression processing can discharge according to target voltage to charging equipment after obtaining target voltage.
It should be noted that above-mentioned mobile power source is carried out to the first default discharge voltage in embodiments herein
When buck processing, the pressure difference of the buck of charge and discharge IC is smaller, so as to effectively improve voltage conversion efficiency, reduces electricity
The loss of amount.
In embodiments herein, further, when the discharge mode is second discharge mode, mobile electricity
The method that source is discharged to the charging equipment according to the discharge mode can with the following steps are included:
Step 104c, buck processing is carried out to the second default discharge voltage according to discharge voltage, obtains target voltage.
In embodiments herein, above-mentioned mobile power source is after determining discharge mode according to voltage difference, if put
Power mode be the second discharge mode, then mobile power source can according to above-mentioned discharge voltage to the above-mentioned second default discharge voltage into
Row buck processing, so that target voltage can be obtained.
It should be noted that above-mentioned mobile power source is determining that above-mentioned discharge mode is above-mentioned in embodiments herein
After second discharge mode, buck processing can be carried out according to above-mentioned discharge voltage, by charge and discharge IC, it is above-mentioned to obtain
Target voltage.For example, discharge voltage is 5V, the second default discharge voltage is 6.8V, then needing according to discharge voltage to second
Default discharge voltage carries out decompression processing, and the target voltage of acquisition is 5V.
Step 104d, it discharges according to target voltage to charging equipment.
In embodiments herein, above-mentioned mobile power source is electric to the above-mentioned second default electric discharge according to above-mentioned discharge voltage
Pressure carries out buck processing, can be according to above-mentioned target voltage to above-mentioned charging equipment after obtaining above-mentioned target voltage
It discharges.
It should be noted that above-mentioned mobile power source is to the above-mentioned second default discharge voltage in embodiments herein
When carrying out buck processing, the pressure difference of the buck of charge and discharge IC is smaller, so as to effectively improve voltage conversion efficiency, subtracts
The loss of small electricity.
A kind of charging method that the embodiment of the present application proposes, after establishing connection with charging equipment, mobile power source is logical
It crosses communication with charging equipment and obtains the corresponding discharge voltage of charging equipment;Wherein, discharge voltage is characterized sets to be charged
Put output voltage when electricity;According to discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage is determined
Difference;Wherein, the first default discharge voltage is less than the second default discharge voltage;Discharge mode is determined according to voltage difference;Wherein,
Discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It is put according to discharge mode to charging equipment
Electricity.It can be seen that the charging method that originally please be propose, mobile power source can after determining the discharge voltage of charging equipment,
According to the battery core quantity of the voltage difference selection electric discharge between discharge voltage and the voltage of battery core, then charging equipment is carried out
Electric discharge.That is, in embodiments herein, although mobile power source configuration, there are two battery core, mobile power source can be with
The selection of discharge mode is carried out in the first discharge mode and the second discharge mode according to the corresponding discharge voltage of charging equipment,
To discharge by the discharge mode being more suitable, the pressure difference of voltage conversion front and back can be reduced, and then voltage can be improved
Transfer efficiency, reduces the loss of electricity, to improve the intelligence of mobile power source.
In the another embodiment of the application, Fig. 5 is the composed structure signal for the mobile power source that the embodiment of the present application proposes
Figure one, as shown in figure 5, the mobile power source 1 that the embodiment of the present application proposes may include acquiring unit 11, determination unit 12, electric discharge
Unit 13 and balanced unit 14,
Acquiring unit 11, for obtaining after establishing connection with charging equipment, the charging equipment is corresponding to be put
Piezoelectric voltage;Wherein, the discharge voltage is characterized to the output voltage when setting electric discharge to be charged.
Determination unit 12, for after acquiring unit 11 obtains the corresponding discharge voltage of the charging equipment, according to
The discharge voltage, the first default discharge voltage and the second default discharge voltage, determine voltage difference;Wherein, described first
Default discharge voltage is less than the described second default discharge voltage;And discharge mode is determined according to the voltage difference;Wherein, institute
The quantity of battery core is determined when stating discharge mode for discharging to charging equipment.
Discharge cell 13, for after determination unit 12 determines discharge mode according to the voltage difference, according to described
Discharge mode discharges to the charging equipment.
Further, in embodiments herein, the voltage difference includes that first voltage difference and second voltage are poor
Value, determination unit 12 are specifically used for obtaining the first voltage according to the discharge voltage and the first default discharge voltage
Difference;And according to the discharge voltage and the second default discharge voltage, obtain the second voltage difference.
Further, in embodiments herein, the discharge mode includes the first discharge mode and the second electric discharge mould
Formula, wherein the corresponding battery core quantity of first discharge mode is less than the corresponding battery core quantity of second discharge mode, determines
Unit 12 is put described in determination also particularly useful for when the first voltage difference is less than or equal to the second voltage difference
Power mode is first discharge mode;And when the first voltage difference is greater than the second voltage difference, determine institute
Stating discharge mode is second discharge mode.
Further, described to put when the discharge mode is first discharge mode in embodiments herein
Electric unit 13 is specifically used for carrying out buck processing to the described first default discharge voltage according to the discharge voltage, obtains mesh
Mark voltage;And it discharges according to the target voltage to the charging equipment.
Further, described to put when the discharge mode is second discharge mode in embodiments herein
Electric unit 13 carries out buck processing to the described second default discharge voltage also particularly useful for according to the discharge voltage, obtains
The target voltage;And it discharges according to the target voltage to the charging equipment.
Further, in embodiments herein, the acquiring unit 11 is also used to according to the discharge voltage,
One default discharge voltage and the second default discharge voltage before determining voltage difference, carry out voltage detecting to battery core, obtain institute
State the first default discharge voltage and the second default discharge voltage.
Further, in embodiments herein, the balanced unit 14, for according to the discharge mode to described
After charging equipment electric discharge, equilibrium treatment is carried out to battery core;Wherein, the equilibrium treatment is used to carry out voltage to the battery core
Balance.
Fig. 6 is the composed structure schematic diagram two for the mobile power source that the embodiment of the present application proposes, as shown in fig. 6, the application is real
The mobile power source 1 for applying example proposition can also include processor 15, the memory 16 for being stored with 15 executable instruction of processor, into one
Step ground, mobile power source 1 can also include communication interface 17, and for connecting processor 15, memory 16 and communication interface 17
Bus 18.
In embodiments herein, above-mentioned processor 15 can be application-specific IC (Application
Specific Integrated Circuit, ASIC), digital signal processor (Digital Signal Processor,
DSP), digital signal processing device (Digital Signal Processing Device, DSPD), programmable logic device
(ProgRAMmable Logic Device, PLD), field programmable gate array (Field ProgRAMmable Gate
Array, FPGA), central processing unit (Central Processing Unit, CPU), controller, microcontroller, microprocessor
At least one of.It, can be with for realizing the electronic device of above-mentioned processor function it is to be appreciated that for different equipment
To be other, the embodiment of the present application is not especially limited.For storing executable program code, which includes memory 16
Computer operation instruction, memory 16 may include high speed RAM memory, it is also possible to and it further include nonvolatile memory, for example,
At least two magnetic disk storages.
In embodiments herein, bus 18 for connection communication interface 17, processor 15 and memory 16 and
Being in communication with each other between these devices.
In embodiments herein, memory 16, for storing instruction and data.
Further, in embodiments herein, above-mentioned processor 15, for charging equipment establish connection it
Afterwards, the corresponding discharge voltage of the charging equipment is obtained by communication with the charging equipment;Wherein, the electric discharge electricity
Output voltage when pressure characterization is discharged to the setting to be charged;According to the discharge voltage, the first default discharge voltage and
Second default discharge voltage, determines voltage difference;Wherein, the described first default discharge voltage is less than the described second default electric discharge electricity
Pressure;Discharge mode is determined according to the voltage difference;Wherein, the discharge mode is used for when charging equipment electric discharge pairs
The quantity of battery core is determined;It discharges according to the discharge mode to the charging equipment.
In practical applications, above-mentioned memory 16 can be volatibility first memory (volatile memory), such as
Arbitrary access first memory (Random-Access Memory, RAM);Or non-volatile first memories (non-
Volatile memory), for example, read-only first memory (Read-Only Memory, ROM), quick flashing first memory
(flash memory), hard disk (Hard Disk Drive, HDD) or solid state hard disk (Solid-State Drive, SSD);Or
The combination of the first memory of person's mentioned kind.
In addition, each functional module in the present embodiment can integrate in one processing unit, it is also possible to each list
Member physically exists alone, and can also be integrated in one unit with two or more units.Above-mentioned integrated unit both can be with
Using formal implementation of hardware, can also be realized in the form of software function module.
If integrated unit realizes that being not intended as independent product is sold or made in the form of software function module
Used time can store in a computer readable storage medium, based on this understanding, the technical solution sheet of the present embodiment
The all or part of the part that contributes to existing technology or the technical solution can be with software product in other words in matter
Form embodies, which is stored in a storage medium, including some instructions are used so that a meter
It calculates machine equipment (can be personal computer, server or the network equipment etc.) or processor (processor) executes this implementation
The all or part of the steps of example method.And storage medium above-mentioned includes: USB flash disk, mobile hard disk, read-only memory (Read Only
Memory, ROM), random access memory (Random Access Memory, RAM), magnetic or disk etc. is various to deposit
Store up the medium of program code.
A kind of mobile power source that the embodiment of the present application proposes, after establishing connection with charging equipment, the mobile power source
The corresponding discharge voltage of charging equipment is obtained by communication with charging equipment;Wherein, discharge voltage is characterized to be charged
Output voltage when electric discharge is set;According to discharge voltage, the first default discharge voltage and the second default discharge voltage, electricity is determined
Pressure difference;Wherein, the first default discharge voltage is less than the second default discharge voltage;Discharge mode is determined according to voltage difference;Its
In, discharge mode is used to be determined the quantity of battery core when discharging to charging equipment;It is set according to discharge mode to be charged
Standby electric discharge.It can be seen that the mobile power source that originally please be propose, mobile power source can the discharge voltage for determining charging equipment it
Afterwards, according to the battery core quantity of the voltage difference selection electric discharge between discharge voltage and the voltage of battery core, then to charging equipment
It discharges.That is, in embodiments herein, although there are two battery core, mobile power sources for mobile power source configuration
Discharge mode can be carried out in the first discharge mode and the second discharge mode according to the corresponding discharge voltage of charging equipment
Selection can reduce the pressure difference of voltage conversion front and back to discharge by the discharge mode being more suitable, and then can be improved
Voltage conversion efficiency, reduces the loss of electricity, to improve the intelligence of mobile power source.
The embodiment of the present application provides a kind of computer readable storage medium, is stored thereon with program, and the program is by processor
Charging method as described above is realized when execution.
Specifically, the corresponding program instruction of one of the present embodiment charging method can be stored in CD, hard disk,
On the storage mediums such as USB flash disk, read by an electronic equipment when the program instruction corresponding with a kind of charging method in storage medium or
It is performed, includes the following steps:
After establishing connection with charging equipment, described to be charged set is obtained by communication with the charging equipment
Standby corresponding discharge voltage;Wherein, the discharge voltage is characterized to the output voltage when setting electric discharge to be charged;
According to the discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage difference is determined;Its
In, the first default discharge voltage is less than the described second default discharge voltage;
Discharge mode is determined according to the voltage difference;Wherein, the discharge mode to the charging equipment for putting
The quantity of battery core is determined when electric;
It discharges according to the discharge mode to the charging equipment.
It should be understood by those skilled in the art that, embodiments herein can provide as method, system or computer program
Product.Therefore, the shape of hardware embodiment, software implementation or embodiment combining software and hardware aspects can be used in the application
Formula.Moreover, the application, which can be used, can use storage in the computer that one or more wherein includes computer usable program code
The form for the computer program product implemented on medium (including but not limited to magnetic disk storage and optical memory etc.).
The application is realization of the reference according to the method, equipment (system) and computer program product of the embodiment of the present application
Flow diagram and/or block diagram describe.It should be understood that flow diagram and/or box can be realized by computer program instructions
The combination of each flow and/or block in figure and the process in implementation process schematic diagram and/or block diagram and/or box.
These computer program instructions be can provide to general purpose computer, special purpose computer, Embedded Processor or other programmable datas
The processor of processing equipment is to generate a machine, so that passing through computer or the processor of other programmable data processing devices
The instruction of execution generate for realizing in one box of implementation process schematic diagram one process or multiple processes and/or block diagrams or
The device for the function of being specified in multiple boxes.
These computer program instructions, which may also be stored in, is able to guide computer or other programmable data processing devices with spy
Determine in the computer-readable memory that mode works, so that it includes referring to that instruction stored in the computer readable memory, which generates,
The manufacture of device is enabled, which realizes in implementation process schematic diagram one process or multiple processes and/or block diagrams one
The function of being specified in a box or multiple boxes.
These computer program instructions also can be loaded onto a computer or other programmable data processing device, so that counting
Series of operation steps are executed on calculation machine or other programmable devices to generate computer implemented processing, thus in computer or
The instruction that is executed on other programmable devices provide for realizing in one process of implementation process schematic diagram or multiple processes and/or
The step of function of being specified in one or more blocks of the block diagram.
The above, the only preferred embodiment of the application, are not intended to limit the protection scope of the application.
Claims (15)
1. a kind of charging method, which is characterized in that the described method includes:
After establishing connection with charging equipment, the charging equipment pair is obtained by the communication with the charging equipment
The discharge voltage answered;Wherein, the discharge voltage is characterized to the output voltage when setting electric discharge to be charged;
According to the discharge voltage, the first default discharge voltage and the second default discharge voltage, voltage difference is determined;Wherein,
The first default discharge voltage is less than the described second default discharge voltage;
Discharge mode is determined according to the voltage difference;Wherein, when the discharge mode is used to discharge to the charging equipment
Determine the quantity of battery core;
It discharges according to the discharge mode to the charging equipment.
2. the method according to claim 1, wherein the voltage difference includes first voltage difference and the second electricity
Pressure difference, it is described according to the discharge voltage, the first default discharge voltage and the second default discharge voltage, determine voltage difference
Value, comprising:
According to the discharge voltage and the first default discharge voltage, the first voltage difference is obtained;
According to the discharge voltage and the second default discharge voltage, the second voltage difference is obtained.
3. according to the method described in claim 2, it is characterized in that, the discharge mode includes that the first discharge mode and second is put
Power mode, wherein the corresponding battery core quantity of first discharge mode is less than the corresponding battery core quantity of second discharge mode,
It is described that discharge mode is determined according to the voltage difference, comprising:
When the first voltage difference is less than or equal to the second voltage difference, determine that the discharge mode is described the
One discharge mode;
When the first voltage difference is greater than the second voltage difference, determine that the discharge mode is the second electric discharge mould
Formula.
4. according to the method described in claim 3, it is characterized in that, when the discharge mode be first discharge mode when,
It is described to include: to charging equipment electric discharge according to the discharge mode
Buck processing is carried out to the described first default discharge voltage according to the discharge voltage, obtains target voltage;
It discharges according to the target voltage to the charging equipment.
5. according to the method described in claim 4, it is characterized in that, when the discharge mode be second discharge mode when,
It is described to include: to charging equipment electric discharge according to the discharge mode
Buck processing is carried out to the described second default discharge voltage according to the discharge voltage, obtains the target voltage;
It discharges according to the target voltage to the charging equipment.
6. the method according to claim 1, wherein described according to the discharge voltage, the first default electric discharge electricity
Pressure and the second default discharge voltage, before determining voltage difference, the method also includes:
Voltage detecting is carried out to battery core, obtains the first default discharge voltage and the second default discharge voltage.
7. according to the method described in claim 6, it is characterized in that, it is described according to the discharge mode to the charging equipment
After electric discharge, the method also includes:
Equilibrium treatment is carried out to the battery core;Wherein, the equilibrium treatment is used to carry out the balance of voltage to the battery core.
8. a kind of mobile power source, which is characterized in that the mobile power source includes: acquiring unit, determination unit and discharge cell,
The acquiring unit, for being obtained by the communication with the charging equipment after establishing connection with charging equipment
Take the corresponding discharge voltage of the charging equipment;Wherein, the discharge voltage characterizes when discharging to the setting to be charged
Output voltage;
The determination unit is used for according to the discharge voltage, the first default discharge voltage and the second default discharge voltage, really
Constant voltage difference;Wherein, the described first default discharge voltage is less than the described second default discharge voltage;And according to the voltage
Difference determines discharge mode;Wherein, the quantity of battery core is carried out when the discharge mode is used to discharge to the charging equipment
It determines;
The discharge cell, for discharging according to the discharge mode to the charging equipment.
9. mobile power source according to claim 8, which is characterized in that the voltage difference includes first voltage difference and
Two voltage differences,
The determination unit is specifically used for obtaining described first according to the discharge voltage and the first default discharge voltage
Voltage difference;And according to the discharge voltage and the second default discharge voltage, obtain the second voltage difference.
10. mobile power source according to claim 9, which is characterized in that the discharge mode include the first discharge mode and
Second discharge mode, wherein the corresponding battery core quantity of first discharge mode is less than the corresponding electricity of second discharge mode
Core quantity,
The determination unit, also particularly useful for when the first voltage difference be less than or equal to the second voltage difference when,
Determine that the discharge mode is first discharge mode;And when the first voltage difference is greater than the second voltage difference
When, determine that the discharge mode is second discharge mode.
11. mobile power source according to claim 10, which is characterized in that
The discharge cell is specifically used for when the discharge mode is first discharge mode, according to the discharge voltage pair
The first default discharge voltage carries out buck processing, obtains target voltage;And according to the target voltage to it is described to
Charging equipment electric discharge;
The discharge cell, it is electric according to the electric discharge also particularly useful for when the discharge mode is second discharge mode
Pressure carries out buck processing to the described second default discharge voltage, obtains the target voltage;And according to the target voltage
It discharges to the charging equipment.
12. mobile power source according to claim 8, which is characterized in that
The acquiring unit is also used to according to the discharge voltage, the first default discharge voltage and the second default discharge voltage,
Before determining voltage difference, voltage detecting is carried out to battery core, the acquisition first default discharge voltage and described second, which are preset, puts
Piezoelectric voltage.
13. mobile power source according to claim 12, which is characterized in that the mobile power source further include: balanced unit,
The balanced unit carries out the battery core after discharging according to the discharge mode to the charging equipment
Equilibrium treatment;Wherein, the equilibrium treatment is used to carry out the balance of voltage to the battery core.
14. a kind of mobile power source, which is characterized in that the mobile power source includes processor, to be stored with the processor executable
The memory of instruction;When executed, it is realized when the processor executes as claim 1-7 is described in any item
Method.
15. a kind of computer readable storage medium, is stored thereon with program, it is applied in mobile power source, which is characterized in that described
The method according to claim 1 to 7 is realized when program is executed by processor.
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CN202503357U (en) * | 2012-02-17 | 2012-10-24 | 深圳天珑移动技术股份有限公司 | Double-cell switching circuit |
CN203243068U (en) * | 2013-03-15 | 2013-10-16 | 陈谊安 | Mobile power supply capable of charging in subarea and discharging in series areas |
CN203434230U (en) * | 2013-08-12 | 2014-02-12 | 深圳市百纳新能源科技有限公司 | Ligand of lithium ion battery and power supply comprising ligand |
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