CN106169794A - Portable power source charge control method and device - Google Patents
Portable power source charge control method and device Download PDFInfo
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- CN106169794A CN106169794A CN201610815430.8A CN201610815430A CN106169794A CN 106169794 A CN106169794 A CN 106169794A CN 201610815430 A CN201610815430 A CN 201610815430A CN 106169794 A CN106169794 A CN 106169794A
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- power source
- battery
- portable power
- charging
- rechargeable devices
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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
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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
- H02J7/0047—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries with monitoring or indicating devices or circuits
-
- 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
- H02J7/00032—Circuit arrangements for charging or depolarising batteries or for supplying loads from batteries characterised by data exchange
- H02J7/00034—Charger exchanging data with an electronic device, i.e. telephone, whose internal battery is under charge
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- Engineering & Computer Science (AREA)
- Power Engineering (AREA)
- Charge And Discharge Circuits For Batteries Or The Like (AREA)
Abstract
The disclosure is directed to portable power source charge control method and device, portable power source charge control method includes: obtain the battery information of the battery of rechargeable devices;Obtain the portable power source information of portable power source;The portable power source multiple charging scheme for rechargeable devices battery is calculated according to battery information and portable power source information.The portable power source charging of the disclosure controls control technology and allows users to the various schemes that understanding portable power source is portable power source charging, selects suitable scheme to charge for user.Therefore, the portable power source charging of the disclosure controls electricity and charging interval that control technology can help user to grasp intuitively in various charging scheme can be rechargeable devices to be charged to, it is easy to user and arranges charging plan, and can scientifically control the battery electric quantity of mobile terminal, extend battery life, promote Consumer's Experience.
Description
Technical field
It relates to rechargeable devices technical field, particularly relate to portable power source charge control method and device.
Background technology
Along with the development of science and technology, increasing intelligent home equipment enters our life, such as sweeping robot, intelligence
Energy refrigerator, Intelligent air purifier etc..These intelligent artifacts are possible not only to our life of facility, it is also possible to preferably expanding should
Product function.In the mobile Internet epoch, portable power source is that our rechargeable devices continuation of the journey provides guarantee.Set when chargeable
When being its charging for electricity is not enough with portable power source, specifying portable power source can be to the mode of rechargeable devices charging, to use
Person judges that the available situation of portable power source has very great help.
Summary of the invention
For overcoming problem present in correlation technique, disclosure embodiment provides portable power source charge control method and dress
Put.
First aspect according to disclosure embodiment, it is provided that a kind of portable power source charge control method, including:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
Described portable power source is calculated for described rechargeable devices according to described battery information and described portable power source information
The multiple charging scheme of battery.
Alternatively, the battery information of the battery of described acquisition rechargeable devices, including:
In a wired fashion, the battery information of the battery of wireless mode or user's input mode described rechargeable devices of acquisition.
Alternatively, described battery information includes the total capacity of battery of described rechargeable devices, dump energy percentage ratio, fills
Piezoelectric voltage and charging current.
Alternatively, described battery information also includes the temperature of battery of described rechargeable devices.
Alternatively, described portable power source information includes the total capacity of described portable power source, dump energy percentage ratio and electricity
Conversion efficiency.
Alternatively, the portable power source information of described acquisition portable power source, including:
Determine according to the information beyond the described electricity conversion efficiency in described battery information and described portable power source information
Described electricity conversion efficiency.
Alternatively, each charging scheme all includes the described portable power source charged electrical for the battery of described rechargeable devices
Pressure, charging current, high charge amount percentage ratio and the time needed for being charged to high charge amount percentage ratio,
Wherein, the described percentage ratio of high charge amount refers to described portable power source in default charging voltage and charging current
The highest battery electric quantity being charged to when charging by the battery of described rechargeable devices down accounts for the percentage of total electricity of described battery
Ratio, wherein, 0≤high charge amount percentage ratio≤100%.
Alternatively, described described portable power source is calculated for described according to described battery information and described portable power source information
The multiple charging scheme of rechargeable devices battery, including:
Employing following formula calculating charging indicated value N:
Wherein, ω is the electricity conversion efficiency of described portable power source, PTFor the total capacity of described portable power source, α is described
The dump energy percentage ratio of portable power source, MTFor the total capacity of the battery of described rechargeable devices, β is described rechargeable devices
The dump energy percentage ratio of battery;
According to charging indicated value N that calculates calculate described in high charge amount percentage ratio, wherein, when described charging indicated value
When N is less than 100%, using this charging indicated value N as the described percentage ratio of high charge amount;When described charging indicated value N is more than
In 100% time, the described percentage ratio of high charge amount is defined as 100%.
Alternatively, described method also includes:
Described multiple charging scheme is notified the user of described rechargeable devices, advice method include following at least one:
Described charging scheme is shown to described user;
Described charging scheme is reported to described user with voice mode;
Described charging scheme is sent to described rechargeable devices, so that described rechargeable devices notifies institute to described user
State charging scheme.
Second aspect according to disclosure embodiment, it is provided that a kind of rechargeable devices battery charge controller, including:
First acquisition module, is configured to obtain the battery information of the battery of rechargeable devices;
Second acquisition module, is configured to obtain the portable power source information of portable power source;
Computing module, is configured to calculate described portable power source pair according to described battery information and described portable power source information
Multiple charging scheme in described rechargeable devices battery.
Alternatively, described first acquisition module is configured to:
In a wired fashion, the battery information of the battery of wireless mode or user's input mode described rechargeable devices of acquisition.
Alternatively, described battery information includes the total capacity of battery of described rechargeable devices, dump energy percentage ratio, fills
Piezoelectric voltage and charging current.
Alternatively, described battery information also includes the temperature of battery of described rechargeable devices.
Alternatively, described portable power source information includes the total capacity of described portable power source, dump energy percentage ratio and electricity
Conversion efficiency.
Alternatively, described second acquisition module is configured to:
Determine according to the information beyond the described electricity conversion efficiency in described battery information and described portable power source information
Described electricity conversion efficiency.
Alternatively, each charging scheme all includes the described portable power source charged electrical for the battery of described rechargeable devices
Pressure, charging current, high charge amount percentage ratio and the time needed for being charged to high charge amount percentage ratio,
Wherein, the described percentage ratio of high charge amount refers to described portable power source in default charging voltage and charging current
The highest battery electric quantity being charged to when charging by the battery of described rechargeable devices down accounts for the percentage of total electricity of described battery
Ratio, wherein, 0≤high charge amount percentage ratio≤100%.
Alternatively, described computing module includes:
First calculating sub module, be configured to use following formula calculate charging indicated value N:
Wherein, ω is the electricity conversion efficiency of described portable power source, PTFor the total capacity of described portable power source, α is described
The dump energy percentage ratio of portable power source, MTFor the total capacity of the battery of described rechargeable devices, β is described rechargeable devices
The dump energy percentage ratio of battery;
Second calculating sub module, is configured to charging indicated value N according to described first calculating sub module calculates and calculates
The described percentage ratio of high charge amount, wherein, when described charging indicated value N is less than 100%, using this charging indicated value N as institute
State high charge amount percentage ratio;When described charging indicated value N is more than or equal to 100%, by true for the described percentage ratio of high charge amount
It is set to 100%.
Alternatively, described device also includes:
Notification module, is configured to notify described multiple charging scheme the user of described rechargeable devices, advice method
Including following at least one:
Described charging scheme is shown to described user;
Described charging scheme is reported to described user with voice mode;
Described charging scheme is sent to described rechargeable devices, so that described rechargeable devices notifies institute to described user
State charging scheme.
The third aspect according to disclosure embodiment, it is provided that a kind of rechargeable devices battery charge controller, including:
Processor;
For storing the memorizer of processor executable;
Wherein, described processor is configured to:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
Described portable power source is calculated for described rechargeable devices according to described battery information and described portable power source information
The multiple charging scheme of battery.
Embodiment of the disclosure that the technical scheme of offer can include following beneficial effect:
Disclosure embodiment provides portable power source charge control method and device, by obtaining the battery of rechargeable devices
Battery information;Obtain the portable power source information of portable power source;Portable power source is calculated according to battery information and portable power source information
Multiple charging scheme for rechargeable devices battery so that user will appreciate that with portable power source be each of portable power source charging
The scheme of kind, selects suitable scheme to charge for user.Therefore, the portable power source charging control control technology of the disclosure can
Helping user to grasp intuitively in various charging scheme can be the electricity that is charged to of rechargeable devices and charging interval, it is simple to use
Family arranges charging to plan, and can scientifically control the battery electric quantity of mobile terminal, extends battery life, promotes user's body
Test.
It should be appreciated that it is only exemplary and explanatory, not that above general description and details hereinafter describe
The disclosure can be limited.
Accompanying drawing explanation
Accompanying drawing herein is merged in description and constitutes the part of this specification, it is shown that meet the enforcement of the disclosure
Example, and for explaining the principle of the disclosure together with description.
Fig. 1 is the flow chart according to the portable power source charge control method shown in the disclosure one exemplary embodiment;
Fig. 2 is the flow chart according to the portable power source charge control method shown in disclosure another exemplary embodiment;
Fig. 3 is the stream of the part according to the portable power source charge control method shown in disclosure another exemplary embodiment
Cheng Tu;
Fig. 4 is the block diagram according to a kind of portable power source battery charge controller shown in the disclosure one exemplary embodiment;
Fig. 5 is the block diagram according to a kind of portable power source battery charge controller shown in disclosure another exemplary embodiment;
Fig. 6 is the block diagram according to a kind of portable power source battery charge controller shown in disclosure another exemplary embodiment;
Fig. 7 is the application scenarios for the portable power source battery charge controller according to the disclosure one specific embodiment is described
Diagram;
Fig. 8 is the application scenarios for the portable power source battery charge controller according to another specific embodiment of the disclosure is described
Diagram;
Fig. 9 is the block diagram according to a kind of portable power source battery charge controller shown in the disclosure one exemplary embodiment.
Detailed description of the invention
Here will illustrate exemplary embodiment in detail, its example represents in the accompanying drawings.Explained below relates to
During accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawings represents same or analogous key element.Following exemplary embodiment
Described in embodiment do not represent all embodiments consistent with the disclosure.On the contrary, they are only with the most appended
The example of the apparatus and method that some aspects that described in detail in claims, the disclosure are consistent.
When needs utilize portable power source to charge for rechargeable devices, the technology of the disclosure can be applied.In the disclosure,
Rechargeable devices refers to any device that can be charged, such as, mobile phone, computer, digital broadcasting by portable power source
Terminal, messaging devices, game console, tablet device, armarium, sweeping robot, intelligent refrigerator, intelligent air is clean
Change device, body-building equipment, personal digital assistant etc..Rechargeable devices in the disclosure charges in control technology, can fill by obtaining
The battery information of the battery of electricity equipment;Obtain the portable power source information of portable power source;According to battery information and portable power source information
Calculate the portable power source multiple charging scheme for rechargeable devices battery so that user will appreciate that with portable power source as filling
The various schemes of electricity equipment charge, select suitable scheme to charge for user.Therefore, the rechargeable devices charging of the disclosure
Control electricity that control technology can help user to grasp intuitively in various charging scheme can be rechargeable devices to be charged to
And the charging interval, it is simple to user arranges charging plan, and can scientifically control the battery electric quantity of rechargeable devices, extends electricity
In the pond life-span, promote Consumer's Experience.
Fig. 1 is the flow chart according to the portable power source charge control method shown in the disclosure one exemplary embodiment, the party
Method comprises the following steps S110, S120 and S130:
In step s 110, the battery information of the battery of rechargeable devices is obtained.
In one embodiment, the battery information of battery obtaining rechargeable devices can include in a wired fashion, wireless
Mode or user's input mode obtain the battery information of the battery of rechargeable devices.For example, it is possible to can by connecting with data wire
Charger obtains the battery information of the battery of rechargeable devices.Again for example, it is possible to by WIFI, bluetooth, infrared etc. wireless
Communication mode obtains the battery information of the battery of rechargeable devices.Again for example, it is possible to by user with button, button, knob,
The mode such as touch screen, phonetic entry obtains the battery information of the battery of rechargeable devices.
In one embodiment, the battery information of the battery of rechargeable devices includes that the total of battery of rechargeable devices holds
Amount, dump energy percentage ratio, charging voltage and charging current.In yet another embodiment, the battery of the battery of rechargeable devices
Information can also include the information such as the temperature of rechargeable devices.
In the step s 120, the portable power source information of portable power source is obtained.
In one embodiment, obtain portable power source portable power source information can include in a wired fashion, wireless mode
Or user's input mode obtains the portable power source information of portable power source.For example, it is possible to by connecting rechargeable devices with data wire
Obtain the portable power source information of portable power source.Again for example, it is possible to obtained by WIFI, bluetooth, the communication such as infrared
Take the portable power source information of portable power source.Again for example, it is possible to pass through user with button, button, knob, touch screen, phonetic entry
The portable power source information of portable power source is obtained etc. mode.
In one embodiment, portable power source information can include the total capacity of portable power source, dump energy percentage ratio and
Electricity conversion efficiency.In another embodiment, portable power source information can also include the letters such as the normal voltage of portable power source, temperature
Breath.
In step s 130, portable power source is calculated for rechargeable devices battery according to battery information and portable power source information
Multiple charging scheme.
In one embodiment, each charging scheme all includes the portable power source charged electrical for the battery of rechargeable devices
Pressure, charging current, high charge amount percentage ratio and the time needed for being charged to high charge amount percentage ratio, wherein, high charge amount
Percentage ratio refers to be filled when the portable power source battery by rechargeable devices under default charging voltage and charging current charges
To the highest battery electric quantity account for the percentage ratio of total electricity of described battery, wherein, 0≤high charge amount percentage ratio≤100%.
Such as, an example of charging scheme is as shown in the table:
Charging scheme | Charging required time | High charge amount percentage ratio |
12V&1.5A quick charge scheme | 65min | 85% |
5V&2A steadily mends electricity scheme | 83min | 100% |
In upper table, it is provided that two kinds of charging schemes.In quick charge scheme, with default charging voltage 12V and filling
Electricity electric current 1.5A carry out quick charge, can enough be charged to battery total electricity 85%, need to charge 65 minutes.Steadily mending
In electricity scheme, steadily mend electricity with default charging voltage 5V and charging current 2A, can enough be charged to total electricity of battery
100%, need to charge 83 minutes.From this table it can be seen that when user needs for rechargeable devices is fully charged the most not
When considering whether very much to be full of, quick charge scheme can be used.When user needs for rechargeable devices is fully charged less
When taking notice of charging duration, can use and steadily mend electricity scheme.
Specifically determine that the embodiment of multiple charging scheme will be described later.
Portable power source charge control method according to disclosure embodiment, by obtaining the battery of the battery of rechargeable devices
Information;Obtain the portable power source information of portable power source;Portable power source is calculated for can according to battery information and portable power source information
The multiple charging scheme of charger battery so that user will appreciate that with the various sides that portable power source is portable power source charging
Case, selects suitable scheme to charge for user.Therefore, the portable power source charging control control technology of the disclosure can help
It can be the electricity that is charged to of rechargeable devices and charging interval that user grasps in various charging scheme intuitively, it is simple to Yong Huan
Row's charging plan, and can scientifically control the battery electric quantity of mobile terminal, extend battery life, promote Consumer's Experience.
Describe according to the mobile terminal charging control method shown in disclosure another exemplary embodiment referring to Fig. 2
Flow chart.Flow chart shown in Fig. 2 except include step S110 identical with the flow chart shown in Fig. 1, S120 and S130 it
Outward, step S140 is also included.
In step S140, by multiple charging scheme notice rechargeable devices user, advice method include following at least
A kind of: to show described charging scheme to described user;Described charging scheme is reported to described user with voice mode.
In one embodiment, charging scheme being notified, the user of rechargeable devices can include aforementioned several notice sides
Multiple combination in formula gets up.In another embodiment, can not be that the battery of rechargeable devices is fully charged for portable power source
Or the situation of the electricity of predetermined limits can not be charged to, permissible according to the portable power source charge control method that embodiment of the disclosure
Along with informing the user charging scheme simultaneously to other promptings of user.Such as, prompt the user whether to need to change a power consumption low
Mobile phone charge;Or prompting user this makes it possible to help user's planning to mobile electricity to portable power source charging etc
The use arrangement of source or rechargeable devices.
In the portable power source charge control method of the disclosure, by the use by multiple charging scheme notice rechargeable devices
Family, advice method include following at least one: show described charging scheme to described user;Broadcast to described user with voice mode
Report described charging scheme so that user will appreciate that by the various schemes that portable power source is rechargeable devices charging, for user
Suitable scheme is selected to charge.Therefore, the rechargeable devices charging control control technology of the disclosure can help user directly perceived
It can be the electricity that is charged to of rechargeable devices and charging interval that ground is grasped in various charging schemes, it is simple to user arranges chargometer
Draw, and can scientifically control the battery electric quantity of rechargeable devices, extend battery life, promote Consumer's Experience.
It will be understood by those skilled in the art that and determining charging voltage, the feelings of charging current, high charge amount percentage ratio
Under condition, prior art can be used to determine the time being charged to needed for high charge amount percentage ratio, this is not repeated by the disclosure.
In one embodiment, step S130 can also include: according to the electricity in battery information and portable power source information
Information beyond conversion efficiency determines electricity conversion efficiency.Understanding electricity conversion efficiency can specify the electricity of portable power source can
Be converted to the electricity of the battery of how many rechargeable devices.In one embodiment, determine that electricity conversion efficiency can help to calculate
Portable power source is for the percentage ratio of high charge amount of rechargeable devices.
According to correlational study, electricity conversion efficiency may be with the total capacity of such as portable power source, dump energy, electricity conversion
The portable power source information of efficiency, normal voltage, temperature etc and the total capacity of the battery of such as rechargeable devices, residue electricity
Being partly or entirely correlated with in the battery information of amount, charging voltage, charging current and temperature etc.In one embodiment, may be used
To preset a synopsis, electricity conversion efficiency is compareed with portable power source information and battery information, with according to acquired shifting
Galvanic electricity source information and battery information determine electricity conversion efficiency.In another embodiment, can be merely with in correlation technique
Algorithm, according to temperature and the normal voltage of the temperature of battery, charging voltage, charging current and the portable power source of rechargeable devices
Calculate electricity conversion efficiency.In other words, it is possible to use correlation technique determines electricity conversion efficiency, this is not done superfluous by the disclosure
State.
In one embodiment, as it is shown on figure 3, step S130 can also include step S310 and S320.
In step S310, employing following formula calculating charging indicated value N:
Wherein, ω is the electricity conversion efficiency of portable power source, PTFor the total capacity of portable power source, α is the surplus of portable power source
Remaining electricity percentage ratio, MTFor the total capacity of the battery of rechargeable devices, β is the dump energy percentage of the battery of rechargeable devices
Ratio.
In step s 320, calculate high charge amount percentage ratio according to charging indicated value N calculated, wherein, work as charging
When indicated value N is less than 100%, using this charging indicated value N as high charge amount percentage ratio;When charging indicated value N is more than or equal to
When 100%, high charge amount percentage ratio is defined as 100%.
As can be seen from the above equation, charging indicated value N can be that the dump energy of portable power source is through (electricity conversion efficiency ω)
The value ω P of conversionTα is divided by total capacity M of the battery of rechargeable devicesTThe ratio of gained adds the surplus of the battery of rechargeable devices
The sum of remaining electricity percent value β.
In one example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 80%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 180%.This represents, this shows
The dump energy of the portable power source in example can be that the battery of residue 20% electricity of rechargeable devices is fully charged, and is being full of
After electricity, additionally it is possible to for filling the electricity of 80% as the battery of rechargeable devices but entirely without the battery of electricity.In this situation
Under, when using the charging of corresponding charging scheme, high charge amount percentage ratio is 100%.
In another example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 20%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 60%.This represents, this example
In the dump energy of portable power source can not be that the battery of rechargeable devices is fully charged, be merely able to the residue of rechargeable devices
The battery of 20% electricity is charged to the electricity of 60%.In the case, when using the charging of corresponding charging scheme, high charge amount
Percentage ratio is 60%.
It will be understood by those skilled in the art that according to determining charging indicated value with upper type and high charge amount percentage ratio is only
It it is only example.
Describe to charge according to the rechargeable devices shown in disclosure exemplary embodiment referring to Fig. 4 to Fig. 6 and control dress
Put.
Fig. 4 is the block diagram according to a kind of rechargeable devices battery charge controller shown in the disclosure one exemplary embodiment;
As shown in Figure 4, this rechargeable devices battery charge controller includes first acquisition module the 410, second acquisition module 420 and calculates mould
Block 430.
First acquisition module 410 is configured to obtain the battery information of the battery of rechargeable devices.
In one embodiment, the first acquisition module 410 be configured in a wired fashion, wireless mode or the user side of input
Formula obtains the battery information of the battery of rechargeable devices.Such as, the first acquisition module 410 can be by connecting can fill with data wire
Electricity equipment obtains the battery information of the battery of rechargeable devices.The most such as, the first acquisition module 410 can pass through WIFI, indigo plant
Tooth, the communication such as infrared obtain the battery information of the battery of rechargeable devices.The most such as, the first acquisition module 410
The electricity of the battery of rechargeable devices can be obtained in modes such as button, button, knob, touch screen, phonetic entries by user
Pond information.
In one embodiment, the battery information of the battery of rechargeable devices includes that the total of battery of rechargeable devices holds
Amount, dump energy percentage ratio, charging voltage and charging current.In yet another embodiment, the battery of the battery of rechargeable devices
Information can also include the information such as the temperature of rechargeable devices.
Second acquisition module 420 is configured to obtain the portable power source information of portable power source.
In one embodiment, the second acquisition module 420 be configured in a wired fashion, wireless mode or the user side of input
Formula obtains the portable power source information of portable power source.Such as, the second acquisition module 420 can be by connecting chargeable setting with data wire
The standby portable power source information obtaining portable power source.The most such as, the second acquisition module 420 can pass through WIFI, bluetooth, infrared etc.
Communication obtains the portable power source information of portable power source.The most such as, the second acquisition module 420 can by user with
The modes such as button, button, knob, touch screen, phonetic entry obtain the portable power source information of portable power source.
In one embodiment, portable power source information can include the total capacity of portable power source, dump energy percentage ratio and
Electricity conversion efficiency.In another embodiment, portable power source information can also include the letters such as the normal voltage of portable power source, temperature
Breath.
Computing module 430 can be configured to calculate portable power source for filling according to battery information and portable power source information
The multiple charging scheme of electricity device battery.
In one embodiment, each charging scheme all includes the portable power source charged electrical for the battery of rechargeable devices
Pressure, charging current, high charge amount percentage ratio and the time needed for being charged to high charge amount percentage ratio, wherein, high charge amount
Percentage ratio refers to be filled when the portable power source battery by rechargeable devices under default charging voltage and charging current charges
To the highest battery electric quantity account for the percentage ratio of total electricity of described battery, wherein, 0≤high charge amount percentage ratio≤100%.
Such as, an example of charging scheme is as shown in the table:
Charging scheme | Charging required time | High charge amount percentage ratio |
12V&1.5A quick charge scheme | 65min | 85% |
5V&2A steadily mends electricity scheme | 83min | 100% |
In upper table, it is provided that two kinds of charging schemes.In quick charge scheme, with default charging voltage 12V and filling
Electricity electric current 1.5A carry out quick charge, can enough be charged to battery total electricity 85%, need to charge 65 minutes.Steadily mending
In electricity scheme, steadily mend electricity with default charging voltage 5V and charging current 2A, can enough be charged to total electricity of battery
100%, need to charge 83 minutes.From this table it can be seen that when user needs for rechargeable devices is fully charged the most not
When considering whether very much to be full of, quick charge scheme can be used.When user needs for rechargeable devices is fully charged less
When taking notice of charging duration, can use and steadily mend electricity scheme.
Specifically determine that the embodiment of multiple charging scheme will be described later.
Portable power source battery charge controller according to the disclosure, by the first acquisition module, is configured to obtain chargeable
The battery information of the battery of equipment;Second acquisition module, is configured to obtain the portable power source information of portable power source;Calculate mould
Block, is configured to calculate the portable power source multiple charging for rechargeable devices battery according to battery information and portable power source information
Scheme so that user will appreciate that by the various schemes that portable power source is rechargeable devices charging, selects suitably for user
Scheme is charged.Therefore, the rechargeable devices charging of the disclosure controls control technology that user can be helped to grasp intuitively is various
It charging scheme can be the electricity that is charged to of rechargeable devices and charging interval, it is simple to user arranges charging plan, and energy
Enough battery electric quantities scientifically controlling rechargeable devices, extend battery life, promote Consumer's Experience.
Describe according to the Mobile terminal charging control device shown in disclosure another exemplary embodiment referring to Fig. 5
Block diagram.Block diagram shown in Fig. 5 is except including first acquisition module 410, second acquisition module identical with the block diagram shown in Fig. 4
420 and computing module 430 outside, also include notification module 440.
Notification module 440 can be configured to the user of multiple charging scheme notice rechargeable devices, advice method bag
Include following at least one: show described charging scheme to described user;Described charging side is reported to described user with voice mode
Case.
In one embodiment, charging scheme being notified, the user of rechargeable devices can include aforementioned several notice sides
Multiple combination in formula gets up.In another embodiment, can not be that the battery of rechargeable devices is fully charged for portable power source
Or the situation of the electricity of predetermined limits can not be charged to, permissible according to the portable power source charge control method that embodiment of the disclosure
Along with informing the user charging scheme simultaneously to other promptings of user.Such as, prompt the user whether to need to change a power consumption low
Mobile phone charge;Or prompting user this makes it possible to help user's planning to mobile electricity to portable power source charging etc
The use arrangement of source or rechargeable devices.
In the portable power source battery charge controller of the disclosure, by notification module, it is configured to multiple charging scheme
Notice rechargeable devices user, advice method include following at least one: show described charging scheme to described user;With language
Sound mode reports described charging scheme to described user so that user will appreciate that with portable power source be rechargeable devices charging
Various schemes, select suitable scheme to charge for user.Therefore, the rechargeable devices charging of the disclosure controls control technology
User can be helped to grasp intuitively in various charging scheme can be electricity and charging interval that rechargeable devices is charged to, just
Arrange charging plan in user, and can scientifically control the battery electric quantity of rechargeable devices, extend battery life, promote and use
Family is experienced.
It will be understood by those skilled in the art that and determining charging voltage, the feelings of charging current, high charge amount percentage ratio
Under condition, prior art can be used to determine the time being charged to needed for high charge amount percentage ratio, this is not repeated by the disclosure.
In one embodiment, computing module 430 can be additionally configured to according in battery information and portable power source information
Electricity conversion efficiency beyond information determine electricity conversion efficiency.Understand electricity conversion efficiency and can specify the electricity of portable power source
Amount can be converted to the electricity of the battery of how many rechargeable devices.In one embodiment, determine that electricity conversion efficiency can be helped
Help the percentage ratio of high charge amount calculating portable power source for rechargeable devices.
According to correlational study, electricity conversion efficiency may be with the total capacity of such as portable power source, dump energy, electricity conversion
The portable power source information of efficiency, normal voltage, temperature etc and the total capacity of the battery of such as rechargeable devices, residue electricity
Being partly or entirely correlated with in the battery information of amount, charging voltage, charging current and temperature etc.In one embodiment, may be used
To preset a synopsis, electricity conversion efficiency is compareed with portable power source information and battery information, with according to acquired shifting
Galvanic electricity source information and battery information determine electricity conversion efficiency.In another embodiment, can be merely with in correlation technique
Algorithm, according to temperature and the normal voltage of the temperature of battery, charging voltage, charging current and the portable power source of rechargeable devices
Calculate electricity conversion efficiency.In other words, it is possible to use correlation technique determines electricity conversion efficiency, this is not done superfluous by the disclosure
State.
In one embodiment, as shown in Figure 6, computing module 430 can also include the first calculating sub module 4302 and
Two calculating sub module 4303.
First calculating sub module 4302 be configured to use following formula calculate charging indicated value N:
Wherein, ω is the electricity conversion efficiency of portable power source, PTFor the total capacity of portable power source, α is the surplus of portable power source
Remaining electricity percentage ratio, MTFor the total capacity of the battery of rechargeable devices, β is the dump energy percentage of the battery of rechargeable devices
Ratio.
Charging indicated value N that second calculating sub module 4303 is configured to according to calculating calculates high charge amount percentage
Ratio, wherein, when indicated value N of charging is less than 100%, using this charging indicated value N as high charge amount percentage ratio;When charging refers to
When indicating value N is more than or equal to 100%, high charge amount percentage ratio is defined as 100%.
As can be seen from the above equation, charging indicated value N can be that the dump energy of portable power source is through (electricity conversion efficiency ω)
The value ω P of conversionTα is divided by total capacity M of the battery of rechargeable devicesTThe ratio of gained adds the surplus of the battery of rechargeable devices
The sum of remaining electricity percent value β.
In one example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 80%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 180%.This represents, this shows
The dump energy of the portable power source in example can be that the battery of residue 20% electricity of rechargeable devices is fully charged, and is being full of
After electricity, additionally it is possible to for filling the electricity of 80% as the battery of rechargeable devices but entirely without the battery of electricity.In this situation
Under, when using the charging of corresponding charging scheme, high charge amount percentage ratio is 100%.
In another example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 20%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 60%.This represents, this example
In the dump energy of portable power source can not be that the battery of rechargeable devices is fully charged, be merely able to the residue of rechargeable devices
The battery of 20% electricity is charged to the electricity of 60%.In the case, when using the charging of corresponding charging scheme, high charge amount
Percentage ratio is 60%.
It will be understood by those skilled in the art that according to determining charging indicated value with upper type and high charge amount percentage ratio is only
It it is only example.
Hereinafter, the application of the rechargeable devices battery charge controller according to the disclosure one specific embodiment is described with reference to Fig. 7
Scene.
In this application scenarios, rechargeable devices 200 and rechargeable devices battery charge controller 400 in a wired fashion, nothing
Line mode or user's input mode are connected to each other.It should be noted that in this embodiment, rechargeable devices battery charge controller
400 separate with portable power source 100.
In one embodiment, the rechargeable devices battery charge controller 300 shown in Fig. 7 can include shown in Fig. 5
One acquisition module the 410, second acquisition module 420, computing module 430 and notification module 440.First acquisition module 410 is configured
For obtaining the battery information of the battery of rechargeable devices 200.Second acquisition module 420 is configured to obtain the movement of portable power source
Power information.Computing module 430 is configured to calculate portable power source for chargeable according to battery information and portable power source information
The multiple charging scheme of device battery.Notification module 440 is configured to the user of multiple charging scheme notice rechargeable devices.
In one embodiment, the first acquisition module 410 quilt of the rechargeable devices battery charge controller 400 shown in Fig. 7
Be configured in a wired fashion, wireless mode or user's input mode obtain the battery information of battery of rechargeable devices 200.Battery
Information includes the total capacity of the battery of rechargeable devices, dump energy percentage ratio, charging voltage and charging current.Battery information is also
The temperature of the battery of rechargeable devices can be included.
In one embodiment, the second acquisition module 420 quilt of the rechargeable devices battery charge controller 400 shown in Fig. 7
Be configured in a wired fashion, wireless mode or user's input mode obtain the portable power source information of portable power source 100.Portable power source
Information can include the total capacity in institute's galvanic electricity source, dump energy percentage ratio and electricity conversion efficiency.
In one embodiment, the computing module 430 in the rechargeable devices battery charge controller 400 shown in Fig. 7 is permissible
Including determining submodule, it is configured to the information beyond according to the electricity conversion efficiency in battery information and portable power source information true
Determine electricity conversion efficiency.
In one embodiment, the computing module 430 in the rechargeable devices battery charge controller 400 shown in Fig. 7 includes
First calculating sub module 4302 and the second calculating sub module 4303.
First calculating sub module 4302 be configured to use following formula calculate charging indicated value N:
Wherein, ω is the electricity conversion efficiency of portable power source, PTFor the total capacity of portable power source, α is the surplus of portable power source
Remaining electricity percentage ratio, MTFor the total capacity of the battery of rechargeable devices, β is the dump energy percentage of the battery of rechargeable devices
Ratio.
Charging indicated value N that second calculating sub module 4303 is configured to according to calculating calculates high charge amount percentage
Ratio, wherein, when indicated value N of charging is less than 100%, using this charging indicated value N as high charge amount percentage ratio;When charging refers to
When indicating value N is more than or equal to 100%, high charge amount percentage ratio is defined as 100%.
As can be seen from the above equation, charging indicated value N can be that the dump energy of portable power source is through (electricity conversion efficiency ω)
The value ω P of conversionTα is divided by total capacity M of the battery of rechargeable devicesTThe ratio of gained adds the surplus of the battery of rechargeable devices
The sum of remaining electricity percent value β.
In one example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 80%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 180%.This represents, this shows
The dump energy of the portable power source in example can be that the battery of residue 20% electricity of rechargeable devices is fully charged, and is being full of
After electricity, additionally it is possible to for filling the electricity of 80% as the battery of rechargeable devices but entirely without the battery of electricity.In this situation
Under, when using the charging of corresponding charging scheme, high charge amount percentage ratio is 100%.
In another example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 20%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 60%.This represents, this example
In the dump energy of portable power source can not be that the battery of rechargeable devices is fully charged, be merely able to the residue of rechargeable devices
The battery of 20% electricity is charged to the electricity of 60%.In the case, when using the charging of corresponding charging scheme, high charge amount
Percentage ratio is 60%.
Fig. 8 is the application scenarios for the portable power source battery charge controller according to another specific embodiment of the disclosure is described
Diagram.
In fig. 8, portable power source 100 possesses according to the portable power source battery charge controller shown in disclosure Fig. 4 to Fig. 6
Function.In other words, the portable power source 100 shown in Fig. 8 is the portable power source 100 shown in Fig. 7 and portable power source charging control
The combination of device 400.Alternatively, in another specific embodiment, rechargeable devices 200 can be controlled with portable power source charging
Device 400 combines.
In this application scenarios, portable power source 100 and rechargeable devices 200 can in a wired fashion, wireless mode or use
Family input mode is connected to each other.
In one embodiment, the portable power source 100 shown in Fig. 8 can include the first acquisition module 410 shown in Fig. 3,
Second acquisition module 420, computing module 430 and notification module 440.First acquisition module 410 is configured to obtain chargeable setting
The battery information of the battery of standby 200.Second acquisition module 420 is configured to obtain the portable power source information of portable power source.Calculate
Module 430 is configured to calculate multiple for rechargeable devices battery of portable power source according to battery information and portable power source information
Charging scheme.Notification module 440 is configured to the user of multiple charging scheme notice rechargeable devices, and example is as shown in Fig. 8
On the display screen 101 of shown portable power source 100.
In one embodiment, the first acquisition module 410 of the portable power source 100 shown in Fig. 8 can be configured to have
Line mode, wireless mode or user's input mode obtain the battery information of the battery of rechargeable devices 200.Alternatively, shown in Fig. 8
Portable power source 100 can possess some input equipment, such as knob or button, with the electricity by the battery of rechargeable devices 200
Pond information inputs the first acquisition module 410.Battery information includes the total capacity of the battery of rechargeable devices, dump energy percentage
Ratio, charging voltage and charging current.Battery information may also include the temperature of the battery of rechargeable devices.
In one embodiment, the second acquisition module 420 of the portable power source 100 shown in Fig. 8 is configured to obtain self
Portable power source information.Portable power source information can include the total capacity in institute's galvanic electricity source, dump energy percentage ratio and electricity conversion
Efficiency.
In one embodiment, the computing module 430 in the portable power source 100 shown in Fig. 8 can include determining that submodule,
The information beyond according to the electricity conversion efficiency in battery information and portable power source information that is configured to determines electricity conversion efficiency.
In one embodiment, the computing module 430 in the portable power source 100 shown in Fig. 8 includes the first calculating sub module
4302 and second calculating sub module 4303.
First calculating sub module 4302 be configured to use following formula calculate charging indicated value N:
Wherein, ω is the electricity conversion efficiency of portable power source, PTFor the total capacity of portable power source, α is the surplus of portable power source
Remaining electricity percentage ratio, MTFor the total capacity of the battery of rechargeable devices, β is the dump energy percentage of the battery of rechargeable devices
Ratio.
Charging indicated value N that second calculating sub module 4303 is configured to according to calculating calculates high charge amount percentage
Ratio, wherein, when indicated value N of charging is less than 100%, using this charging indicated value N as high charge amount percentage ratio;When charging refers to
When indicating value N is more than or equal to 100%, high charge amount percentage ratio is defined as 100%.
As can be seen from the above equation, charging indicated value N can be that the dump energy of portable power source is through (electricity conversion efficiency ω)
The value ω P of conversionTα is divided by total capacity M of the battery of rechargeable devicesTThe ratio of gained adds the surplus of the battery of rechargeable devices
The sum of remaining electricity percent value β.
In one example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 80%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 180%.This represents, this shows
The dump energy of the portable power source in example can be that the battery of residue 20% electricity of rechargeable devices is fully charged, and is being full of
After electricity, additionally it is possible to for filling the electricity of 80% as the battery of rechargeable devices but entirely without the battery of electricity.In this situation
Under, when using the charging of corresponding charging scheme, high charge amount percentage ratio is 100%.
In another example, according to above formula, it is assumed that electricity conversion efficiency ω is 80%, the total capacity of portable power source is
10000mAh, the dump energy percentage ratio of portable power source is 20%, total capacity M of the battery of rechargeable devicesTFor 4000mAh,
The dump energy percentage ratio β of the battery of rechargeable devices is 20%, then the value of charging indicated value N is 60%.This represents, this example
In the dump energy of portable power source can not be that the battery of rechargeable devices is fully charged, be merely able to the residue of rechargeable devices
The battery of 20% electricity is charged to the electricity of 60%.In the case, when using the charging of corresponding charging scheme, high charge amount
Percentage ratio is 60%.
In an example of the disclosure, obtain the battery information of the battery of rechargeable devices in the following manner: according to
The family understanding to battery of mobile phone information, portable power source is manually entered (knob can be passed through) battery of mobile phone capacity (with
100mah is that unit is adjusted) and battery electric quantity percentage ratio (being adjusted in units of 5%).In the case, during charging,
The onboard chip of portable power source can be calculated by inside chip automatically according to the change of real-time voltage Yu electric current and directly exist automatically
Carry out remaining display and the prompting in charging interval, Computing Principle and the meter of other embodiments above on the screen that portable power source carries
Calculation principle is identical.
It will be understood by those skilled in the art that and the most just portable power source battery charge controller can be fabricated to inside
It is integrated with portable power source, it is also possible to manufacture single rechargeable devices battery charge controller, by itself and single portable power source group
Close and use.According to the teaching of the disclosure, those skilled in the art can realize portable power source charging in every way and control dress
Put.This is not repeated by the disclosure.
An embodiment according to the disclosure, it is provided that a kind of portable power source battery charge controller, including:
Processor;
For storing the memorizer of processor executable;
Wherein, described processor is configured to:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
The portable power source multiple charging side for rechargeable devices battery is calculated according to battery information and portable power source information
Case.
Fig. 9 is the block diagram according to a kind of portable power source battery charge controller shown in the disclosure one exemplary embodiment.Example
As, portable power source battery charge controller 900 can be mobile device, such as mobile phone, computer, digital broadcast terminal, message
Transceiver, game console, tablet device, armarium, sweeping robot, intelligent refrigerator, Intelligent air purifier, body-building
Equipment, personal digital assistant etc..
With reference to Fig. 9, portable power source battery charge controller 900 can include following one or more assembly: processes assembly
902, memorizer 904, power supply module 906, multimedia groupware 908, audio-frequency assembly 910, the interface 912 of input/output (I/O),
Sensor cluster 914, and communications component 916.
Process assembly 902 and generally control the integrated operation of portable power source battery charge controller 900, such as with display, phone
The operation that calling, data communication, camera operation and record operation are associated.Process assembly 902 and can include one or more place
Reason device 920 performs instruction, to complete all or part of step of above-mentioned method.Additionally, process assembly 902 can include one
Individual or multiple modules, it is simple to process between assembly 902 and other assemblies is mutual.Such as, process assembly 902 and can include many matchmakers
Module, with facilitate multimedia groupware 908 and process between assembly 902 mutual.
Memorizer 904 is configured to store various types of data to support at portable power source battery charge controller 900
Operation.The example of these data includes any application program for operation on portable power source battery charge controller 900 or side
The instruction of method, contact data, telephone book data, message, picture, video etc..Memorizer 904 can be by any kind of volatile
Property or non-volatile memory device or combinations thereof realize, such as static RAM (SRAM), electric erasable can
Program read-only memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM),
Read only memory (ROM), magnetic memory, flash memory, disk or CD.
The various assemblies that power supply module 906 is portable power source battery charge controller 900 provide electric power.Power supply module 906 can
To include power-supply management system, one or more power supplys, and other generate with for portable power source battery charge controller 900, manage
The assembly being associated with distribution electric power.
The offer one that multimedia groupware 908 is included between described portable power source battery charge controller 900 and user is defeated
The screen of outgoing interface.In certain embodiments, screen can include liquid crystal display (LCD) and touch panel (TP).If screen
Curtain includes that touch panel, screen may be implemented as touch screen, to receive the input signal from user.Touch panel includes one
Individual or multiple touch sensors touch with sensing, slide and gesture on touch panel.Described touch sensor can not only be felt
Survey and touch or the border of sliding action, but also detect the persistent period relevant to described touch or slide and pressure.?
In some embodiments, multimedia groupware 908 includes a front-facing camera and/or post-positioned pick-up head.When portable power source charging control
Device 900 processed is in operator scheme, and during such as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can connect
Multi-medium data outside Shouing.Each front-facing camera and post-positioned pick-up head can be a fixing optical lens system or tool
There are focal length and optical zoom ability.
Audio-frequency assembly 910 is configured to output and/or input audio signal.Such as, audio-frequency assembly 910 includes a Mike
Wind (MIC), when portable power source battery charge controller 900 is in operator scheme, such as call model, logging mode and speech recognition mould
During formula, mike is configured to receive external audio signal.The audio signal received can be further stored at memorizer
904 or send via communications component 916.In certain embodiments, audio-frequency assembly 910 also includes a speaker, is used for exporting
Audio signal.
I/O interface 912 provides interface for processing between assembly 902 and peripheral interface module, above-mentioned peripheral interface module can
To be keyboard, put striking wheel, button etc..These buttons may include but be not limited to: home button, volume button, start button and lock
Set button.
Sensor cluster 914 includes one or more sensor, for providing each for portable power source battery charge controller 900
The state estimation of individual aspect.Such as, what sensor cluster 914 can detect portable power source battery charge controller 900 beats ON/OFF
Closed state, the relative localization of assembly, the most described assembly is display and the keypad of portable power source battery charge controller 900,
Sensor cluster 914 can also detect portable power source battery charge controller 900 or 900 1 groups of portable power source battery charge controller
The position change of part, the presence or absence that user contacts with portable power source battery charge controller 900, portable power source charging controls
Device 900 orientation or acceleration/deceleration and the variations in temperature of portable power source battery charge controller 900.Sensor cluster 914 can wrap
Include proximity transducer, be configured to when there is no any physical contact object near detecting.Sensor cluster 914
Optical sensor can also be included, such as CMOS or ccd image sensor, be used for using in imaging applications.In certain embodiments,
This sensor cluster 914 can also include acceleration transducer, gyro sensor, Magnetic Sensor, pressure transducer or temperature
Sensor.
Communications component 916 is configured to facilitate wired between portable power source battery charge controller 900 and other equipment or nothing
The communication of line mode.Portable power source battery charge controller 900 can access wireless network based on communication standard, such as WiFi, 2G
Or 3G, or combinations thereof.In one exemplary embodiment, communications component 916 receives wide from outside via broadcast channel
The broadcast singal of broadcast management system or broadcast related information.In one exemplary embodiment, described communications component 916 also includes
Near-field communication (NFC) module, to promote junction service.Such as, can be infrared based on RF identification (RFID) technology in NFC module
Data association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.
In the exemplary embodiment, portable power source battery charge controller 900 can be integrated by one or more application specific
Circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), PLD (PLD), existing
Field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components realize, and are used for performing above-mentioned
Method.
In the exemplary embodiment, a kind of non-transitory computer-readable recording medium including instruction, example are additionally provided
As included the memorizer 904 of instruction, above-mentioned instruction can be performed by the processor 920 of portable power source battery charge controller 900 with complete
Become said method.Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM),
CD-ROM, tape, floppy disk and optical data storage devices etc..
A kind of non-transitory computer-readable recording medium, when the instruction in described storage medium is by portable power source charging control
When the processor of device processed performs so that portable power source battery charge controller is able to carry out a kind of portable power source charging controlling party
Method, the method includes:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
The portable power source multiple charging side for rechargeable devices battery is calculated according to battery information and portable power source information
Case.
Those skilled in the art, after considering description and putting into practice disclosure disclosed herein, will readily occur to its of the disclosure
Its embodiment.The application is intended to any modification, purposes or the adaptations of the disclosure, these modification, purposes or
Person's adaptations is followed the general principle of the disclosure and includes the undocumented common knowledge in the art of the disclosure
Or conventional techniques means.Description and embodiments is considered only as exemplary, and the true scope of the disclosure and spirit are by following
Claim is pointed out.
It should be appreciated that the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and
And various modifications and changes can carried out without departing from the scope.The scope of the present disclosure is only limited by appended claim.
Claims (19)
1. a portable power source charge control method, it is characterised in that including:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
Described portable power source is calculated for described rechargeable devices battery according to described battery information and described portable power source information
Multiple charging scheme.
Method the most according to claim 1, it is characterised in that the battery information of the battery of described acquisition rechargeable devices,
Including:
In a wired fashion, the battery information of the battery of wireless mode or user's input mode described rechargeable devices of acquisition.
Method the most according to claim 1, it is characterised in that described battery information includes the battery of described rechargeable devices
Total capacity, dump energy percentage ratio, charging voltage and charging current.
Method the most according to claim 3, it is characterised in that described battery information also includes the electricity of described rechargeable devices
The temperature in pond.
Method the most according to claim 1, it is characterised in that described portable power source information includes the total of described portable power source
Capacity, dump energy percentage ratio and electricity conversion efficiency.
Method the most according to claim 5, it is characterised in that the portable power source information of described acquisition portable power source, including:
Determine described according to the information beyond the described electricity conversion efficiency in described battery information and described portable power source information
Electricity conversion efficiency.
Method the most according to claim 1, it is characterised in that each charging scheme all includes that described portable power source is for institute
State the charging voltage of the battery of rechargeable devices, charging current, high charge amount percentage ratio and be charged to high charge amount percentage ratio
The required time,
Wherein, the described percentage ratio of high charge amount refers to described portable power source and under default charging voltage and charging current is
The highest battery electric quantity that the battery of described rechargeable devices is charged to when charging accounts for the percentage ratio of total electricity of described battery, its
In, 0≤high charge amount percentage ratio≤100%.
Method the most according to claim 7, it is characterised in that described believe according to described battery information and described portable power source
Breath calculates the described portable power source multiple charging scheme for described rechargeable devices battery, including:
Employing following formula calculating charging indicated value N:
Wherein, ω is the electricity conversion efficiency of described portable power source, PTFor the total capacity of described portable power source, α is described mobile electricity
The dump energy percentage ratio in source, MTFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices
Dump energy percentage ratio;
According to charging indicated value N that calculates calculate described in high charge amount percentage ratio, wherein, when described charging indicated value N is little
In 100% time, using this charging indicated value N as the described percentage ratio of high charge amount;When described charging indicated value N is more than or equal to
When 100%, the described percentage ratio of high charge amount is defined as 100%.
Method the most according to claim 1, it is characterised in that also include:
Described multiple charging scheme is notified the user of described rechargeable devices, advice method include following at least one:
Described charging scheme is shown to described user;
Described charging scheme is reported to described user with voice mode;
Described charging scheme is sent to described rechargeable devices so that described rechargeable devices to described user notify described in fill
Electricity scheme.
10. a rechargeable devices battery charge controller, it is characterised in that including:
First acquisition module, is configured to obtain the battery information of the battery of rechargeable devices;
Second acquisition module, is configured to obtain the portable power source information of portable power source;
Computing module, is configured to calculate described portable power source for institute according to described battery information and described portable power source information
State the multiple charging scheme of rechargeable devices battery.
11. devices according to claim 10, it is characterised in that described first acquisition module is configured to:
In a wired fashion, the battery information of the battery of wireless mode or user's input mode described rechargeable devices of acquisition.
12. devices according to claim 10, it is characterised in that described battery information includes the electricity of described rechargeable devices
The total capacity in pond, dump energy percentage ratio, charging voltage and charging current.
13. devices according to claim 12, it is characterised in that described battery information also includes described rechargeable devices
The temperature of battery.
14. devices according to claim 10, it is characterised in that described portable power source information includes described portable power source
Total capacity, dump energy percentage ratio and electricity conversion efficiency.
15. devices according to claim 14, it is characterised in that described second acquisition module is configured to:
Determine described according to the information beyond the described electricity conversion efficiency in described battery information and described portable power source information
Electricity conversion efficiency.
16. devices according to claim 10, it is characterised in that each charging scheme all include described portable power source for
The charging voltage of the battery of described rechargeable devices, charging current, high charge amount percentage ratio and be charged to high charge amount percentage
The ratio required time,
Wherein, the described percentage ratio of high charge amount refers to described portable power source and under default charging voltage and charging current is
The highest battery electric quantity that the battery of described rechargeable devices is charged to when charging accounts for the percentage ratio of total electricity of described battery, its
In, 0≤high charge amount percentage ratio≤100%.
17. devices according to claim 16, it is characterised in that described computing module includes:
First calculating sub module, be configured to use following formula calculate charging indicated value N:
Wherein, ω is the electricity conversion efficiency of described portable power source, PTFor the total capacity of described portable power source, α is described mobile electricity
The dump energy percentage ratio in source, MTFor the total capacity of the battery of described rechargeable devices, β is the battery of described rechargeable devices
Dump energy percentage ratio;
Second calculating sub module, is configured to calculate described according to charging indicated value N that described first calculating sub module calculates
High charge amount percentage ratio, wherein, when described charging indicated value N is less than 100%, using this charging indicated value N as described
High charge amount percentage ratio;When described charging indicated value N is more than or equal to 100%, the described percentage ratio of high charge amount is defined as
100%.
18. devices according to claim 10, it is characterised in that also include:
Notification module, is configured to notify described multiple charging scheme the user of described rechargeable devices, and advice method includes
Below at least one:
Described charging scheme is shown to described user;
Described charging scheme is reported to described user with voice mode;
Described charging scheme is sent to described rechargeable devices so that described rechargeable devices to described user notify described in fill
Electricity scheme.
19. 1 kinds of rechargeable devices battery charge controllers, it is characterised in that including:
Processor;
For storing the memorizer of processor executable;
Wherein, described processor is configured to:
Obtain the battery information of the battery of rechargeable devices;
Obtain the portable power source information of portable power source;
Described portable power source is calculated for described rechargeable devices battery according to described battery information and described portable power source information
Multiple charging scheme.
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Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106786961A (en) * | 2017-01-13 | 2017-05-31 | 广东欧珀移动通信有限公司 | Charging process method, device and terminal |
CN108063482A (en) * | 2017-12-31 | 2018-05-22 | 深圳市秦墨科技有限公司 | A kind of charge control method, device, electronic equipment and charge control system |
CN108649644A (en) * | 2018-05-31 | 2018-10-12 | 出门问问信息科技有限公司 | A kind of smartwatch charging unit and charging method |
CN110289652A (en) * | 2019-06-21 | 2019-09-27 | 合肥联宝信息技术有限公司 | A kind of the electric discharge management method and electronic equipment of mobile power source |
CN112534674A (en) * | 2018-05-21 | 2021-03-19 | 斯灵媒体有限公司 | Rule-based intelligent charging |
Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104065120A (en) * | 2014-06-12 | 2014-09-24 | 文创科技股份有限公司 | APP management method of portable power source and luggage with portable power source |
WO2015064734A1 (en) * | 2013-11-01 | 2015-05-07 | 日本電気株式会社 | Charging device, electricity storage system, charging method, and program |
CN104900927A (en) * | 2014-03-07 | 2015-09-09 | 世和能源科技股份有限公司 | Detection and display method for mobile power supply charging information |
-
2016
- 2016-09-09 CN CN201610815430.8A patent/CN106169794B/en active Active
Patent Citations (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2015064734A1 (en) * | 2013-11-01 | 2015-05-07 | 日本電気株式会社 | Charging device, electricity storage system, charging method, and program |
CN104900927A (en) * | 2014-03-07 | 2015-09-09 | 世和能源科技股份有限公司 | Detection and display method for mobile power supply charging information |
CN104065120A (en) * | 2014-06-12 | 2014-09-24 | 文创科技股份有限公司 | APP management method of portable power source and luggage with portable power source |
Cited By (9)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN106786961A (en) * | 2017-01-13 | 2017-05-31 | 广东欧珀移动通信有限公司 | Charging process method, device and terminal |
WO2018129972A1 (en) * | 2017-01-13 | 2018-07-19 | 广东欧珀移动通信有限公司 | Charging processing method and apparatus, storage medium, and electronic device |
CN106786961B (en) * | 2017-01-13 | 2019-05-24 | Oppo广东移动通信有限公司 | Charging method, device and terminal |
CN108063482A (en) * | 2017-12-31 | 2018-05-22 | 深圳市秦墨科技有限公司 | A kind of charge control method, device, electronic equipment and charge control system |
CN112534674A (en) * | 2018-05-21 | 2021-03-19 | 斯灵媒体有限公司 | Rule-based intelligent charging |
EP3982510A1 (en) * | 2018-05-21 | 2022-04-13 | Sling Media Pvt Ltd. | Rule based smart charging |
US11955827B2 (en) | 2018-05-21 | 2024-04-09 | Dish Network Technologies India Private Limited | Rule based smart charging |
CN108649644A (en) * | 2018-05-31 | 2018-10-12 | 出门问问信息科技有限公司 | A kind of smartwatch charging unit and charging method |
CN110289652A (en) * | 2019-06-21 | 2019-09-27 | 合肥联宝信息技术有限公司 | A kind of the electric discharge management method and electronic equipment of mobile power source |
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