CN106169781A - Charging controller, charging device and charging management method - Google Patents
Charging controller, charging device and charging management method Download PDFInfo
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- CN106169781A CN106169781A CN201610290888.6A CN201610290888A CN106169781A CN 106169781 A CN106169781 A CN 106169781A CN 201610290888 A CN201610290888 A CN 201610290888A CN 106169781 A CN106169781 A CN 106169781A
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- charging
- intelligent terminal
- power source
- portable power
- charging device
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- 238000007726 management method Methods 0.000 title claims abstract description 26
- 238000004891 communication Methods 0.000 claims abstract description 43
- 230000006698 induction Effects 0.000 claims abstract description 17
- 230000005611 electricity Effects 0.000 claims abstract description 16
- 230000001939 inductive effect Effects 0.000 claims abstract description 3
- 230000003862 health status Effects 0.000 claims description 34
- 230000036413 temperature sense Effects 0.000 claims description 5
- 230000003313 weakening effect Effects 0.000 claims 1
- 238000000034 method Methods 0.000 description 32
- 238000001514 detection method Methods 0.000 description 23
- 238000012937 correction Methods 0.000 description 9
- 238000010586 diagram Methods 0.000 description 9
- 238000009825 accumulation Methods 0.000 description 7
- 238000006243 chemical reaction Methods 0.000 description 4
- 230000000694 effects Effects 0.000 description 2
- 230000001143 conditioned effect Effects 0.000 description 1
- 238000013461 design Methods 0.000 description 1
- 238000005516 engineering process Methods 0.000 description 1
- 238000010438 heat treatment Methods 0.000 description 1
- 238000012544 monitoring process Methods 0.000 description 1
- 230000002265 prevention Effects 0.000 description 1
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Classifications
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- H02J7/0022—
-
- 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
- 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
- H01M10/425—Structural combination with electronic components, e.g. electronic circuits integrated to the outside of the casing
- H01M10/4257—Smart batteries, e.g. electronic circuits inside the housing of the cells or batteries
-
- 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
Abstract
The present invention relates to charging controller, charging device and charging management method, its charging controller includes: circuit board;Wireless communication module, is connected with described circuit board, for communicating wirelessly with intelligent terminal;Electric current induction module and/voltage induced module, be connected with described circuit board, and described electric current induction module is used for inductive charge current, and described voltage induced module is used for induction charging voltage.Its charging device is to include above-mentioned charge management module.Its charging management method is to obtain the parameter of charging device and the parameter of intelligent terminal being electrically charged and shows accordingly;Prompting is sent when the electricity of described charging device and/or described intelligent terminal reaches predetermined threshold value.
Description
Technical field
The present invention relates to the charger for mobile terminal charging, more particularly, it relates to a kind of Charge Management
Device, charging device and charging management method.
Background technology
Intelligent terminal, such as smart mobile phone, panel computer etc., having become as can not in people's life and work
Or the equipment lacked.Existing intelligent terminal's function gets more and more, and power consumption is the most increasing, causes it to continue
Boat ability is poor.Mobile charging device, such as portable power source, it is possible to charge for intelligent terminal whenever and wherever possible,
Thus the most extensively liked by consumer.Existing mobile charging device typically only includes rechargeable battery assembly and fills
Electric connector, user cannot know the situation of mobile charging device, and this can make troubles to user.
Summary of the invention
On the one hand, the invention provides a kind of charging controller.A reality at the charging controller of invention
Execute in example, including: circuit board;Wireless communication module, is connected with described circuit board, for intelligence eventually
End communicates wirelessly;Electric current induction module and/voltage induced module, be connected with described circuit board, institute
Stating electric current induction module for inductive charge current, described voltage induced module is used for induction charging voltage.
In another embodiment of the charging controller according to the present invention, described wireless communication module is bluetooth
Module, close range wireless communication module or WiFi module.
In another embodiment of the charging controller according to the present invention, also include temperature sense module, use
Temperature in induction charging battery core.
In another embodiment of the charging controller according to the present invention, also include being connected with described circuit board
Remote keying, for by described wireless communication module control described intelligent terminal take pictures.
In another embodiment of the charging controller according to the present invention, when described charging controller away from
Described intelligent terminal makes the wireless communication signal between described charging controller and described intelligent terminal strong
When degree weakens to preset value, described charging controller or described intelligent terminal send prompting to user.
In another embodiment of the charging controller according to the present invention, described charging controller passes through institute
State wireless communication module and send the positional information of described charging controller, described intelligence to described intelligent terminal
Terminal positions described charging controller according to described positional information.
In another embodiment of the charging controller according to the present invention, described charging controller passes through institute
State wireless communication module to described intelligent terminal send searching instruction time, described intelligent terminal sends to user
Prompting.
In another embodiment of the charging controller according to the present invention, described intelligent terminal is by described nothing
Line communication module is when described charging controller sends searching instruction, and described charging controller is to user
Send prompting.
In another embodiment of the charging controller according to the present invention, described charging controller passes through institute
Stating wireless communication module and send charge parameter to described intelligent terminal, described charge parameter includes in following parameter
One or more: the capacity of portable power source, charging voltage, charging current, discharge voltage, discharge current,
Be full of the time needed for described intelligent terminal, can be full of the number of times of described intelligent terminal, portable power source strong
Health situation, the temperature of portable power source and charge mode.
On the other hand, present invention also offers a kind of charging device, this charging device includes as described above
Charging controller.Described charging device is portable power source, traveling charger, vehicle charger, charging wire
Or transducer.
Another further aspect, present invention also offers a kind of charging management method, including:
Obtain the parameter of charging device and the parameter of intelligent terminal being electrically charged and show accordingly;
Prompting is sent when the electricity of described charging device and/or described intelligent terminal reaches predetermined threshold value;
Output electric current or the input current of described intelligent terminal according to described charging device judge it is fast mold filling
Formula or trickle charge pattern;
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate the charging interval, and
Described intelligent terminal sends prompting when being full of;
Obtain the health status of charging device and show;
Obtain the temperature of charging device and show, and sending prompting when described temperature reaches predetermined threshold value;
Described charging device away from described intelligent terminal make described charging device and described intelligent terminal it
Between wireless telecommunications disconnect time send prompting;
Out code is sent to close described charging device to described charging device;
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate described charging device energy
Enough it is full of the number of times of intelligent terminal and shows.
The charging controller of the present invention, charging device and charging management method can obtain easily and fill
The situation of electricity and parameters, and it is shown to user according to setting, it is also possible to when pre-conditioned reaching,
Point out user timely, with user-friendly, promote Consumer's Experience.
Accompanying drawing explanation
Below in conjunction with drawings and Examples, the invention will be further described, in accompanying drawing:
Fig. 1 is the schematic diagram of an embodiment of the charging controller of the present invention;
Fig. 2 is the schematic diagram of an embodiment of the charging device of the present invention;
Fig. 3 is the schematic diagram of intelligent terminal;
Fig. 4 is that charging controller, power supply and intelligent terminal coordinate the schematic diagram being charged;
Fig. 5 is the schematic flow sheet of the input charged state judgement of charging device of the present invention;
Fig. 6 is the hookup of Fig. 5 schematic flow sheet;
Fig. 7 is the schematic flow sheet of the outfan charged state judgement of charging device of the present invention;
Fig. 8 is the anti-schematic flow sheet losing function of the charging controller of the present invention;
Fig. 9 is the schematic diagram that the charging controller of the present invention coordinates with intelligent terminal;
Figure 10 is the principle schematic that the charging controller of the present invention prevents losing function.
Detailed description of the invention
In order to the technical characteristic of the present invention, purpose and effect are more clearly understood from, now compare accompanying drawing
Describe the detailed description of the invention of the present invention in detail.
The enforcement of the charging controller of the present invention, charging device and charging management method is described below in detail
Example, the example of these embodiments is shown in the drawings, and the most same or similar label represents phase
With or similar element or there is the element of same or like function.
As it is shown in figure 1, be the schematic diagram of an embodiment of the charging controller of the present invention.Referring to Fig. 2,
In this embodiment, charging controller 100 includes circuit board 110, and is connected with circuit board 110
Wireless communication module 120 and electric current induction module 130 and/or voltage induced module 140, temperature sense
Answer module 150 and remote keying 160.Wherein, circuit board 110 can be integrated with control chip,
Such as micro-control unit (Microcontroller Unit;MCU), various merit is realized controlling other parts
Energy.Wireless communication module 120 can be bluetooth module, close range wireless communication (NFC) module, WiFi
Module or other can realize the module etc. of wireless telecommunications, wireless communication module 120 can be arranged on circuit board
On 110, for and intelligent terminal, such as mobile phone, panel computer etc. can run intelligent operating system with
The equipment of display screen, communicates wirelessly, to exchange data or control instruction, such as, charging controller
Can send charge parameter by wireless communication module to intelligent terminal, charge parameter includes in following parameter
One or more: the capacity of portable power source, charging voltage, charging current, discharge voltage, discharge current,
Be full of the time needed for intelligent terminal, can be full of the number of times of intelligent terminal, the health status of portable power source,
The temperature of portable power source and charge mode, Fig. 3 is the schematic diagram of intelligent terminal 300, and intelligent terminal 300
Having display screen 310, and charging inlet 301, intelligent terminal 300 can run intelligent operating system.
Electric current induction module 130 and voltage induced module 140 are connected with charging circuit respectively, to obtain charging respectively
Electric current and charging voltage parameter, its can be various routine be suitable for current sensor and voltage sensor.Temperature
Degree induction module 150 is for the temperature of the charging battery core of induction charging temperature, especially portable power source, temperature
Induction module 150 can be used for monitoring charging device or the problem of the easy heating part of charging controller, with
Guaranteeing charging device or the work of charging controller safety and stability, temperature sense module 150 can be various
The conventional temperature sensor being suitable for.For convenience smart machine is operated, charging controller 100
Also including remote keying 160, this remote keying 160 may be used for controlling intelligence by wireless communication module 120
Can terminal take pictures.It is to be appreciated that temperature sense module 150 and remote keying 160 are not
Necessary to charging controller 100, can join according to the functional requirement of charging controller 100
Put.
In another embodiment of the charging controller of the present invention, wireless communication module 120 can be built-in with
Electric current induction module 130 and/or voltage induced module 140, it is no longer necessary to individually electric current induction module 130
And/or voltage induced module 140.
The charging controller of the present invention also has loss prevention function, when charging controller is whole away from intelligence
When end makes the wireless communication signal strength reduction between charging controller and intelligent terminal to preset value,
Charging controller or intelligent terminal can send prompting to user, this prompting can be screen show,
The mode such as sound, vibration.Additionally, charging controller can also by wireless communication module to intelligence eventually
End sends the positional information of charging controller, and intelligent terminal positions charging controller according to positional information
.It addition, charging controller and intelligent terminal can also realize bi-directionally or uni-directionally looking up function, such as fill
Electricity managing device is by wireless communication module when intelligent terminal sends searching instruction, and intelligent terminal is to use
Person sends prompting;Intelligent terminal by wireless communication module to charging controller send searching instruction time,
Charging controller sends prompting to user.
As in figure 2 it is shown, be the schematic diagram of an embodiment of the charging device of the present invention.Referring to Fig. 2, at this
In embodiment, charging device 200 is a portable power source, and rechargeable battery includes charging battery core 210 and being integrated in
Charging controller 100 in charging device 200, charging controller 100 can be filling shown in Fig. 1
Electricity managing device 100.It is to be appreciated that charging device 100 is not limited to above-mentioned portable power source,
Can also be other various forms, such as charging device can also is that traveling charger, vehicle charger,
Charging wire or transducer etc., charging controller 100 is arranged on these charging devices, for charging
Device is managed.
Present invention also offers a kind of charging management method, by being arranged on application program (App in intelligent terminal
) perform, this charging management method includes:
Obtain the parameter of charging device and the parameter of intelligent terminal being electrically charged and show accordingly;
Prompting is sent when the electricity of charging device and/or intelligent terminal reaches predetermined threshold value;
Output electric current according to charging device or the input current of intelligent terminal judge it is fast mold filling formula or slow
Mold filling formula;
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate the charging interval, and
Prompting is sent when intelligent terminal is full of;
Obtain the health status of charging device and show;
Obtain the temperature of charging device and show, and sending prompting when temperature reaches predetermined threshold value;
Away from intelligent terminal, the wireless telecommunications between charging device and intelligent terminal are disconnected at charging device
Time send prompting;
Out code is sent with charge closing device to charging device;
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate charging device and can fill
Expire the number of times of intelligent terminal and show.
As shown in Figure 4, the schematic diagram being charged is coordinated for charging controller, power supply and intelligent terminal
.Wherein, charging controller 100 plays the effect of transducer, and its one end connects power supply 200, the other end
Connect intelligent terminal 300 be charged for intelligent terminal 300, power supply 200 can be portable power source or other
Any type of power supply input, charging controller 100 himself wireless communication module and intelligent terminal
300 communicate wirelessly, exchange data and control instruction.
Next introduce how charging controller, charging device and charging management method run.
Referring to Fig. 5 to Figure 10, during use, first, charging controller 100 needs and intelligent terminal 300
Carry out pairing to connect, to set up wireless communications links, when being such as bluetooth and NFC, need first to join
Right, when being WiFi or other wireless modes, need to set up wireless connections.The nothing of charging controller 100
Line communication module 120 has multiple application configuration file 2, have in configuration file 2 different services 3 and
Parameter 4, wireless communication module 120 is according to difference service 3 and the instruction of parameter 4, with charging controller
100 communicate to obtain different data 5.Data 5 are sent to intelligence through wireless communication module 120 again
Application program (App) 6 in terminal 300.
Notice user function
User can set hope data in application program 6;Charging controller 100 can be through wireless telecommunications
Module 120 communicates and obtains data 5, after data 5 are with hope data consistent, and charging controller
100 or intelligent terminal 300 can notify user by modes such as display, sound, vibrations.
Remote connection breaking prompt facility
When charging controller 100 makes charging controller 100 and intelligent terminal away from intelligent terminal 300
When wireless communication signal strength reduction between 300 is to preset value, such as, when charging controller 100 He
Connection breaking in intelligent terminal 300, charging controller 100 or intelligent terminal 300 can be by display, sound
, the mode such as vibration notify user.
Portable power source 200 and the capacity of intelligent terminal 300, charging voltage, electric current
Charging controller 100 communicates and obtains data 5, application program with wireless communication module 120
Show after 6 acquisition data 5.
It is full of the electricity time of intelligent terminal 300
Different intelligent terminal 300 battery capacity data storehouse and the relational database with data 5 have been preset in application
In the data base of program 6, charging controller 100 obtains intelligent terminal 300 through wireless communication module 120
Model, after application program 6 obtains data 5, demonstrates filling time according to the data of data base.
It is full of the number of times of intelligent terminal 300 electricity
Different intelligent terminal 300 battery capacity data storehouse has been preset in application program 6 data base, applies journey
Sequence 6 obtains the data 5 of charging controller 100 electricity, and application program 6 is after equation calculates number of times
Display.
The health status of the interior battery core of portable power source 200
In the case of input power and out-put supply, charging controller 100 can be through wireless communication module 120
Communicating and obtain data 5, the relational database of data 5 has been preset in the data base of application program 6
, any data is to be in a good state of health, and what data is that health status is normal, and what data is that health status is poor
, application program 6 demonstrates after obtaining data 5.
Charging is fast mold filling formula or trickle charge pattern
The relational database of data 5 has been preset in the data base of application program 6, and what current data is fast
Filling, any data is trickle charge, and the electronic circuitry design in charging controller 100 can monitor charging current,
In the case of input power and out-put supply, charging controller 100 can be carried out through wireless communication module 120
Communication and acquirement current data 5, application program 6 according to the data in data base and current data 5 display is
Fast mold filling formula or trickle charge pattern.
Prevent losing function
Referring to Figure 10 and Fig. 8, illustrate to bleed off how mistake function realizes.
1. charging controller 100 can communicate and obtain data 7 through wireless communication module 120, this number
It is referred to as RSSI according to 7
2. lose in functional category anti-, change that (increasing adds deduct when application program 6 obtains RSSI data 7
Few) after, charging controller 100 or make the intelligent terminal 300 can be logical by modes such as display, sound, vibrations
Know user
Situation one
I. user can in application program 6 setting data
Ii. charging controller 100 can communicate and obtain data 7 through wireless communication module 120
Iii. after data 7 are inconsistent with data, charging controller 100 or make intelligent terminal 300 to lead to
The modes such as display, sound, vibration of crossing notify user
Situation two
I. user can in application program 6 set point data
Ii. charging controller 100 can communicate and obtain data 7 through wireless communication module 120
Iii. after data 7 exceed preset range data, charging controller 100 or make intelligent terminal 300
User can be notified by modes such as display, sound, vibrations
Situation three
I. after user can start this function in application program 6, with connection breaking in charging controller 100
Ii. after charging controller 100 and user termination reconnect, charging controller 100
Can communicate and obtain data 7 through wireless communication module 120
Iii. charging controller 100 or make the intelligent terminal 300 can by modes such as display, sound, vibrations
Notice user
Situation four
I. user click button on charging controller 100 or user termination
Ii. charging controller 100 or make the intelligent terminal 300 can by modes such as display, sound, vibrations
Notice user
Situation five
I. when connection breaking in charging controller 100 and user termination
Ii. charging controller 100 or make the intelligent terminal 300 can by modes such as display, sound, vibrations
Notice user
It is to be appreciated that above charging controller can be integrated in the charging valve in charging device
Reason device, is such as integrated in the charging controller in portable power source.
Next according to the parameter of following table be discussed in detail used above to data the most how to calculate.
Table 1, parameter list
Describe | Input | Outfan | Intelligent terminal |
Single battery quantity | N | N | |
Single battery current voltage | Va1 | Vb1 | |
Voltage during single battery constant voltage | Va2 | ||
Portable power source input/output voltage | Va3 | Vb3 | |
Portable power source raw capacity | C0 | C0 | |
Single battery raw capacity | C00 | C00 | |
Check and correction capacity during portable power source charge/discharge | Ca0 | Cb0 | |
Check and correction capacity during single battery charge/discharge | Ca00 | Cb00 | |
Single battery current capacities | Ca1 | ||
Single battery discharge capacity | Cb1 | ||
Portable power source electric discharge total capacity | Cb2 | ||
Portable power source current capacities | Ca2 | Cb3 | |
Single battery capacity when constant current turns constant voltage | Ca3 | ||
Portable power source capacity when constant current turns constant voltage | Ca4 | ||
Single battery rated power | P | P | |
Single battery current power | Pa | Pb | |
Portable power source current capacities percentage value | Wa1 | Wb1 | |
The capacity percentage value of portable power source when constant current turns constant voltage | Wa2 | ||
The capacity percentage value of portable power source during initial charge/discharge | Wa3 | Wb2 | |
Terminate the capacity percentage value of portable power source during charge/discharge | Wa4 | Wb3 | |
The capacity percentage value section that portable power source is filled/put | Wa5 | Wb4 | |
Single battery input/output electric current | Ia1 | Ib1 | |
Portable power source input/output electric current | Ia2 | Ib2 | |
Va1Or Ia1Corresponding time point | ta1 | tb1 | |
The time point that single battery is filled | ta2 | ||
The time period that single battery is filled | ta3 | ||
How long residue is full of portable power source | ta4 | ||
Portable power source fills how many times can also to equipment 1 | Q | ||
Circulating battery access times | M | M | |
It is electrically charged/discharge temp | Ta | Tb | |
Energy conversion efficiency | e | ||
The rated power of equipment 1 | Pc | ||
The raw capacity of equipment 1 | Cc0 | ||
The capacity that equipment 1 receives | Cc1 | ||
The current percentage value of equipment 1 battery | Wc1 |
Input data theory
I. capacity check and correction
Method one:
1.∑Ia1*Ta1And obtain single battery charging time check and correction capacity Ca00
2.Ca0=Ca00* N, obtains check and correction total capacity C of portable power sourcea0
Method two:
1. elder generation's constant current constant voltage again when single battery is electrically charged
2. during constant current, utilize Ia1The time period T being multiplied by constant current draws total capacity (the now I of crossing current sectiona1Be constant not
Become)
3. during constant voltage, utilize ∑ Ia1*Ta1And draw total capacity (the now I of constant voltage sectiona1It is change)
4. the total capacity of constant current section adds the total capacity of constant voltage section and obtains the check and correction capacity C of single batterya00
5.Ca00* N=Ca0, obtain the check and correction capacity C of portable power sourcea00
II. (this current capacities can be with particular capacity value or volume percent to show portable power source current capacities
Form shows)
Method one:
1. current power P of single battery detecteda
2. the current capacities C of portable power sourcea2=(Pa/P)*Ca0
Method two:
1. detection single battery voltage Va1
2. judge Va1With Va2Magnitude relationship
If 3.A. is Va1<Va2, when being electrically charged according to default single battery, voltage and the tables of data of capacity C, draw Va1
Corresponding Ca1
If B. Va1=Va2, detect Ia1, electric current I and capacity C when being electrically charged according to default single battery
Tables of data, draws Ia1Corresponding Ca1
4. ∵ known portable power source raw capacity C0, it is known that single-unit battery core raw capacity C00
∴ N=C0/C00Obtain battery core quantity N
5.Ca2=Ca1* N obtains portable power source current capacities Ca2
Method three:
1. the current capacities percentage value W of portable power source is obtained by bluetootha1
2.Ca2=Wa4*C0Obtain portable power source current capacities Ca2
Method four:
1. detection single battery input current Ia1, the time that record is now corresponding is ta1
2.∑Ia1*ta1Total capacity C obtaining current portable power source of valuea2
III. intelligent prompt function
Method one:
1. current power P of single battery detecteda
2.Wa1=Pa/P
3. judge Wa1Whether reach the capacity percentage value that User Defined is wanted to remind
4. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method two:
1. detection single battery voltage Va1
2. judge Va1With Va2Magnitude relationship
If 3.A. is Va1<Va2, when being electrically charged according to default single battery, voltage and the tables of data of capacity C, draw Va1
Corresponding Ca1
If B. Va1=Va2, detect Ia1, electric current I and capacity C when being electrically charged according to default single battery
Tables of data, draws Ia1Corresponding Ca1
4. ∵ known portable power source capacity C0, it is known that single-unit battery core capacity C00
∴ N=C0/C00Obtain battery core quantity N
5.Ca2=Ca1* N obtains portable power source current capacities Ca2
6.Wa1=Ca2/Ca0Obtain portable power source current capacities percentage value Wa1
7. judge Wa1Whether reach the capacity percentage value that User Defined is wanted to remind
8. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method three:
1. the current capacities percentage value W of portable power source is obtained by bluetootha1
2. judge Wa1Whether reach the capacity percentage value that User Defined is wanted to remind
3. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method four:
1. detection single battery input current Ia1,
2. the time that record is now corresponding is ta1
3.∑Ia1*ta1Total capacity C being worth to current portable power sourcea2
4.Wa1=Ca2/Ca0Obtain portable power source current capacities percentage value
5. judge Wa1Whether reach the capacity percentage value that User Defined is wanted to remind
6. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, verbal cue or
Multiple point out
III. detection portable power source input current is to judge the function of fast and slow charge
1., according to presetting voltage V and the tables of data of capacity C when single battery is electrically charged, draw from single battery from perseverance
Capacity C during circulation constant voltagea3
2. a Ca4=Ca3* N, obtains portable power source capacity C when constant current turns constant voltagea4
3.Ca4/C0=Wa2, obtain portable power source capacity percentage value when constant current turns constant voltage
4. judge portable power source current electric quantity percentage value Wa1Whether more than Wa2
If 5.A. is Wa1>Wa2, it is judged that portable power source input current Ia2Whether more than 500mA.In this way, then move
Power supply is for fill soon, and is full of soon;Otherwise, portable power source is trickle charge, is full of the soonest
If B. Wa1<Wa2, judge portable power source input current Ia2Whether more than 500mA.In this way, then mobile electric
Source is for fill soon;Otherwise, portable power source is trickle charge
IV. display remains how long Ta4It is full of the function of portable power source
Method one:
1. portable power source power=Va3*Ia2
2. the power of battery=(Va3*Ia2)/e
3. it is full of merit=N (P-P that battery needsa)*ta4
4. how long residue is full of portable power source ta4=(Va3*Ia2)/e*N(P-Pa)
Method two:
1. detection single battery current voltage Va1
If 2.A. is Va1<Va2, when being electrically charged according to default single battery, the tables of data of voltage V and time t, draws
Va1Corresponding time point ta1
If B. Va1=Va2, detect Ia1, the data of electric current I and time t when being electrically charged according to default battery
Table, draws Ia1Corresponding time point ta1
3. time point when the known single battery of ∵ is filled is ta2
Mono-battery core of ∴ is filled the time period t of needsa3=ta1-ta2
4. a ta4=ta3* N, show how long residue is full of the t of portable power sourcea4Value
Method three:
1. detect the current flow I of portable power sourcea1, the corresponding time t of recorda1, utilize ∑ Ia1*ta1And appearance can be drawn
Value is counter pushes away ta4Value
V. portable power source health status H is showna1Function
Method one:
1.∑PaThe current power of accumulation single battery
2.∑Pa/ P=M
3. when M value is between 0-150, it is determined that the health status of portable power source is " outstanding "
When M value is between 151-300, it is determined that the health status of portable power source is " well "
When M value is between 301-500, it is determined that the health status of portable power source is " typically "
When M value is more than 500, it is determined that the health status of portable power source is " poor "
Method two:
1. the capacity percentage value W of portable power source when record discharges initial every timea3
2. the capacity percentage value W of portable power source at the end of record charging every timea4
3.Wa5=Wa4-Wa3, obtain capacity percentage value section W that portable power source is electrically chargeda5
4. add up Wa5, obtain the summation ∑ W of the capacity percentage value section that portable power source is electrically chargeda5
5. as ∑ Wa5Value between 1%-15000%, it is determined that the health status of portable power source is " outstanding "
As ∑ Wa5Value between 15001%-30000%, it is determined that the health status of portable power source is " well "
As ∑ Wa5Value between 30001%-50000%, it is determined that the health status of portable power source is " typically "
As ∑ Wa5Value more than 50000% time, it is determined that the health status of portable power source is " poor "
Method three:
1. accumulate the capacity of each portable power source charging, obtain the total capacity of accumulation charging
2. accumulation charging total capacity/check and correction capacity=M
3. when M value is between 0-150, it is determined that the health status of portable power source is " outstanding "
When M value is between 151-300, it is determined that the health status of portable power source is " well "
When M value is between 301-500, it is determined that the health status of portable power source is " typically "
When M value is more than 500, it is determined that the health status of portable power source is " poor "
VI. temperature detection
1. detection temperature Ta
2. judge TaWhether more than 60 DEG C
If 3. Ta> 60 DEG C, quit work;Otherwise, the most normally work
Outfan data theory
I. (this current capacities is with particular capacity value or capacity percentage value form shape to show portable power source current capacities
Formula)
Method one:
1. detection single battery current power Pb
2. portable power source current capacities Cb3=Cb0*(Pb/P)
Method two:
1. detection single battery current voltage Vb1
2., according to voltage V during the single battery electric discharge preset and the tables of data of capacity C, draw Vb1Corresponding Cb1
3.Cb2=Cb1* N, draws the electric discharge total capacity of portable power source
4.Cb3=Cb0-Cb2, draw the current capacities of portable power source
Method three
1. the current capacities percentage value W of portable power source is obtained by bluetoothb1
2.Cb3=Wb1*Cb0Obtain portable power source current capacities Cb3
Method four:
1. detection single battery output electric current Ib1, the time that record is now corresponding is ta1
2. accumulation Ib1*tb1The summation of value obtain electric discharge total capacity C of current portable power sourceb2
3.Cb3=Cb0-Cb2, obtain the current capacities of portable power source
II. intelligent prompt
Mobile phone electricity intelligent prompt
1. detection mobile phone electricity Wc1
2. judge Wc1Whether reach the capacity percentage value that User Defined is wanted to remind
3. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Portable power source intelligent prompt
Method one:
1. detection single battery current power Pb
2.Wb1=Pb/P
3. judge Wb1Whether reach the capacity percentage value that User Defined is wanted to remind
4. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method two:
1. detection single battery current voltage Vb1
2., according to voltage V during the single battery electric discharge preset and the tables of data of capacity C, draw Vb1Corresponding Cb1
3.Cb2=Cb1* N, draws the electric discharge total capacity of portable power source
4.Cb3=Cb0-Cb2, draw the current capacities of portable power source
5.Wb1=Cb3/Cb0Obtain portable power source current capacities percentage value Wb1
6. judge Wb1Whether reach the capacity percentage value that User Defined is wanted to remind
7. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method three:
1. the current capacities percentage value W of portable power source is obtained by bluetoothb1
2. judge Wb1Whether reach the capacity percentage value that User Defined is wanted to remind
3. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
Method four:
1. detection single battery output electric current Ib1, the time that record is now corresponding is ta1
2. accumulation Ib1*tb1The summation of value obtain electric discharge total capacity C of current portable power sourceb2
3.Cb3=Cb0-Cb2, obtain the current capacities of portable power source
4.Wb1=Cb3/Cb0Obtain portable power source current capacities percentage value Wb1
5. judge Wb1Whether reach the capacity percentage value that User Defined is wanted to remind
6. when reaching, mobile phone can pass through the one in jingle bell, vibration, flashing light, information alert, voice message or
Multiple point out
III. detection portable power source output electric current is to judge fast and slow charge function
1. judge battery capacity W of portable power source detection equipment 1c1Whether more than 90%
If 2.A. is Wc1> 90%, judge that portable power source exports electric current Ib2Whether more than 500mA.In this way, fill soon,
And equipment 1 is full of soon;Otherwise, trickle charge, and equipment 1 is full of the soonest
If B. Wc1< 90%, judge that portable power source exports electric current Ib2Whether more than 500mA.In this way, fill soon;Instead
It, trickle charge
IV. remain and how long be full of equipment 1
Method one:
1. detection equipment 1 current electric quantity percentage value Wc1
2. a portable power source is provided to the capacity=(1-W of equipment 1c1)/e
3. the time=(1-W of a remaining full equipment 1c1)/e*Ib1
V. show that portable power source can also (this number of times be the independence of current outfan for the function of filling apparatus how many times
Computing, and it is directed to install the equipment of APP)
Method one:
1. detection single battery current power Pb
2. item also need to N (P-Pb) power is full of portable power source
3. power=e*N (P-P that an equipment 1 can receiveb)
4.Q=e*N (P-Pb)/Pc
Method two:
1. detection single battery current voltage Vb1
2., according to voltage V during the single battery electric discharge preset and the tables of data of capacity C, draw Vb1Corresponding capacity
Cb1
3.Cb2=Cb1* N, draws discharge capacity C of portable power sourceb2
4.Cb3=Cb0-Cb2Draw the current capacities C of portable power sourceb3
5.Cc1=Cb3* e portable power source current capacities Cb3It is multiplied by energy conversion efficiency e between portable power source and equipment 1
, draw the capacity C that equipment 1 receivesc1
6.Q=Cc1/Cc0Drawing can also be for filling apparatus how many times
7. detect a V every special timeb1, to reach the purpose of a special time Q-value of acquisition
Method three:
1. the current capacities percentage value W of portable power source is obtained by bluetoothb1
2.Cb3=Wb1*Cb0Obtain portable power source current capacities Cb3
3.Cc1=Cb3* e portable power source current capacities Cb3It is multiplied by energy conversion efficiency e between portable power source and equipment 1
, draw the capacity C that equipment 1 receivesc1
4.Q=Cc1/Cc0Drawing can also be for filling apparatus how many times
Method four:
1. detection portable power source output electric current Ib2, the time t of record correspondenceb1
2. utilize calculus to draw present discharge total capacity C of portable power sourceb2
3.Cb3=Cb0-Cb2
4.Cc1=Cb3* e portable power source current capacities Cb3It is multiplied by energy conversion efficiency e between portable power source and equipment 1
, draw the capacity C that equipment 1 receivesc1
5.Q=Cc1/Cc0Drawing can also be for filling apparatus how many times
VI. temperature detection
1. detection portable power source temperature Tb
2. judge TbWhether more than 60, in this way, quit work;Otherwise, normally work
VII. health status
Method one:
1.∑PbThe current power of accumulation single battery
2.∑Pb/ P=M
3. when M value is between 0-150, it is determined that the health status of portable power source is " outstanding "
When M value is between 151-300, it is determined that the health status of portable power source is " well "
When M value is between 301-500, it is determined that the health status of portable power source is " typically "
When M value is more than 500, it is determined that the health status of portable power source is " poor "
Method two:
1. the capacity percentage value W of portable power source during record initial dischargeb2
2. the capacity percentage value W of portable power source during record end electric dischargeb3
3.Wb4=Wb2-Wb3, obtain the capacity percentage value section that portable power source is released
4. accumulation Wb4, obtain portable power source and release the summation ∑ W of percentage value sectionb4
5. as ∑ Wb4Value between 1%-15000%, it is determined that the health status of portable power source is " outstanding "
As ∑ Wb4Value between 15001%-30000%, it is determined that the health status of portable power source is " well "
As ∑ Wb4Value between 30001%-50000%, it is determined that the health status of portable power source is " typically "
As ∑ Wb4Value more than 50000% time, it is determined that the health status of portable power source is " poor "
Method three:
1. accumulate the capacity of each portable power source electric discharge, obtain the total capacity of accumulated discharge
2. accumulated discharge total capacity/check and correction capacity=M
3. when M value is between 0-150, it is determined that the health status of portable power source is " outstanding "
When M value is between 151-300, it is determined that the health status of portable power source is " well "
When M value is between 301-500, it is determined that the health status of portable power source is " typically "
When M value is more than 500, it is determined that the health status of portable power source is " poor "
Above in conjunction with accompanying drawing, embodiments of the invention are described, but the invention is not limited in
The detailed description of the invention stated, above-mentioned detailed description of the invention is only schematic rather than restrictive
, those of ordinary skill in the art, under the enlightenment of the present invention, is wanting without departing from present inventive concept and right
Ask under protected ambit, it may also be made that a lot of form, these be all contained in the present invention protection it
In.
Claims (19)
1. a charging controller, it is characterised in that including:
Circuit board;
Wireless communication module, is connected with described circuit board, for communicating wirelessly with intelligent terminal;
Electric current induction module and/voltage induced module, be connected with described circuit board, described electric current sensing mould
Block is used for inductive charge current, and described voltage induced module is used for induction charging voltage.
Charging controller the most according to claim 1, it is characterised in that described wireless telecommunications mould
Block is bluetooth module, close range wireless communication module or WiFi module.
Charging controller the most according to claim 1, it is characterised in that also include temperature sense
Module, for the temperature of induction charging battery core.
Charging controller the most according to claim 1, it is characterised in that also include and described electricity
The remote keying that road plate connects, claps for controlling described intelligent terminal by described wireless communication module
According to.
Charging controller the most according to claim 1, it is characterised in that when described Charge Management
Device makes the channel radio between described charging controller and described intelligent terminal away from described intelligent terminal
When news signal strength weakening is to preset value, described charging controller or described intelligent terminal send out to user
Go out prompting.
Charging controller the most according to claim 1, it is characterised in that described Charge Management fills
Put the positional information being sent described charging controller by described wireless communication module to described intelligent terminal
, described intelligent terminal positions described charging controller according to described positional information.
Charging controller the most according to claim 1, it is characterised in that described Charge Management fills
Put by described wireless communication module to described intelligent terminal send searching instruction time, described intelligent terminal to
User sends prompting.
Charging controller the most according to claim 1, it is characterised in that described intelligent terminal is led to
Cross described wireless communication module to described charging controller send searching instruction time, described Charge Management fill
Put and send prompting to user.
Charging controller the most according to claim 1, it is characterised in that described Charge Management fills
Putting and send charge parameter by described wireless communication module to described intelligent terminal, described charge parameter includes
One or more in following parameter: the capacity of portable power source, charging voltage, charging current, electric discharge electricity
Pressure, discharge current, be full of the time needed for described intelligent terminal, can be full of described intelligent terminal time
Number, the health status of portable power source, the temperature of portable power source and charge mode.
10. a charging device, it is characterised in that include filling as described in any one of claim 1 to 7
Electricity managing device.
11. charging devices according to claim 10, it is characterised in that described charging device is for moving
Galvanic electricity source, traveling charger, vehicle charger, charging wire or transducer.
12. 1 kinds of charging management methods, it is characterised in that including:
Obtain the parameter of charging device and the parameter of intelligent terminal being electrically charged and show accordingly;
Prompting is sent when the electricity of described charging device and/or described intelligent terminal reaches predetermined threshold value.
13. charging management methods according to claim 12, it is characterised in that also include:
Output electric current or the input current of described intelligent terminal according to described charging device judge it is fast mold filling
Formula or trickle charge pattern.
14. charging management methods according to claim 12, it is characterised in that also include:
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate the charging interval, and
Described intelligent terminal sends prompting when being full of.
15. charging management methods according to claim 12, it is characterised in that also include:
Obtain the health status of charging device and show.
16. charging management methods according to claim 12, it is characterised in that also include:
Obtain the temperature of charging device and show, and sending prompting when described temperature reaches predetermined threshold value.
17. charging management methods according to claim 12, it is characterised in that also include:
Described charging device away from described intelligent terminal make described charging device and described intelligent terminal it
Between wireless telecommunications disconnect time send prompting.
18. charging management methods according to claim 12, it is characterised in that also include:
Out code is sent to close described charging device to described charging device.
19. charging management methods according to claim 12, it is characterised in that also include:
Parameter according to charging device and the parameter of intelligent terminal being electrically charged calculate described charging device energy
Enough it is full of the number of times of intelligent terminal and shows.
Priority Applications (2)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
US15/159,823 US10164455B2 (en) | 2015-05-20 | 2016-05-20 | Charging management apparatus, charging apparatus, and charging management method |
PCT/CN2016/082835 WO2016184428A1 (en) | 2015-05-20 | 2016-05-20 | Charging management apparatus, charging apparatus, and charging management method |
Applications Claiming Priority (2)
Application Number | Priority Date | Filing Date | Title |
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US201562164517P | 2015-05-20 | 2015-05-20 | |
US62/164,517 | 2015-05-20 |
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CN106169781A true CN106169781A (en) | 2016-11-30 |
Family
ID=57358929
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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CN201610290888.6A Pending CN106169781A (en) | 2015-05-20 | 2016-05-04 | Charging controller, charging device and charging management method |
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CN (1) | CN106169781A (en) |
HK (1) | HK1231638A1 (en) |
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CN107069913A (en) * | 2017-05-08 | 2017-08-18 | 上海传英信息技术有限公司 | Charge control method, user terminal and charger |
CN108365648A (en) * | 2018-02-12 | 2018-08-03 | 北京纽曼腾飞科技有限公司 | A kind of intelligent charging method |
CN109656345A (en) * | 2018-12-22 | 2019-04-19 | 深圳市日升质电子科技有限公司 | A kind of Portable movable energy storage battery management system |
CN110177168A (en) * | 2018-02-21 | 2019-08-27 | 王涛 | A kind of rechargeable battery with intelligent function |
CN110445218A (en) * | 2019-08-16 | 2019-11-12 | 东莞骑士换电电子科技有限公司 | Intelligence changes the charge control and rejection communication management method and system of electric cabinet |
CN110556884A (en) * | 2018-06-01 | 2019-12-10 | Oppo广东移动通信有限公司 | charging management method, device, medium and electronic equipment applying method |
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CN107069913A (en) * | 2017-05-08 | 2017-08-18 | 上海传英信息技术有限公司 | Charge control method, user terminal and charger |
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CN110445218A (en) * | 2019-08-16 | 2019-11-12 | 东莞骑士换电电子科技有限公司 | Intelligence changes the charge control and rejection communication management method and system of electric cabinet |
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