CN110190637A - Electronic device, charging method and non-transient computer-readable recording medium - Google Patents
Electronic device, charging method and non-transient computer-readable recording medium Download PDFInfo
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- CN110190637A CN110190637A CN201811634168.2A CN201811634168A CN110190637A CN 110190637 A CN110190637 A CN 110190637A CN 201811634168 A CN201811634168 A CN 201811634168A CN 110190637 A CN110190637 A CN 110190637A
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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
- H02J7/0069—Charging or discharging for charge maintenance, battery initiation or rejuvenation
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Abstract
The invention discloses a kind of electronic device, charging method and non-transient computer-readable recording mediums.Electronic device includes power module and the processor for being coupled to power module.Processor to: obtain the charging start time point of power module;It is estimated according to use state information and restores charging time point;When the electricity of power module is greater than or equal to the first electricity, suspension continues to charge to power module;And when stopping to charge to recovery charging time point, start the charging to power module, and power module is charged into the second electricity, wherein the second electricity is greater than the first electricity.Electronic device and charging method of the invention can be by being accustomed to past use state information come the charging of analytic learning user; estimate correctly charging end time point; so that interrupting charging under the premise of not influencing charging effect, while it can reach the effect for protecting rechargeable battery during the charging process.
Description
Technical field
The invention relates to a kind of charging method, in particular to a kind of electronic device, charging method and non-transient electricity
Brain medium capable of reading record.
Background technique
Electronic device on the market in order to provide using upper portability, come by nearly all built-in rechargeable battery at present
Electric power is provided.As electronic device can provide diversification and personalization function, user would generally without using electronic device or
When person predicts that current electricity will not apply future usage for a period of time, electronic device can just be charged by connecting with the mains.
Since the time span that electronic device is connected with the mains is possible to the process that can be impacted, and charge to battery status
In and the charge condition of battery can not be considered.It, can be after battery charges to certain electricity, with what is powered on a small quantity at present in technology
Form charges the battery.However, user may lead to have already passed through one in the case where power supply a period of time on a small quantity
Section time and misidentification battery full charging, are caused using upper inconvenience.
Summary of the invention
The purpose of the present invention is to provide one kind can by past use state information come analytic learning user
Charging habit electronic device.
The present invention provides a kind of electronic device.Electronic device includes power module and processor.Processor couples power supply
Module, processor is to execute: obtaining the charging start time point of power module;Recovery charging is estimated according to use state information
Time point;When the electricity of power module is greater than or equal to the first electricity, suspension continues to be electrically charged to power module;And work as
When suspension charges to recovery charging time point, start the charging to power module, and power module is charged into the second electricity,
In the second electricity be greater than the first electricity.
The present invention separately provides a kind of charging method, applied to the electronic device with power module.Charging method include with
Lower step: the charging start time point of power module is obtained;It is estimated according to use state information and restores charging time point;Work as power supply
When module is charged to the first electricity, stops power module and continue to charge;And restore charging time point when stopping to charge to
When, start the charging to power module, and power module is charged into the second electricity, wherein the second electricity is greater than the first electricity.
The present invention separately provides a kind of non-transient computer-readable recording medium, stores multiple program codes, when a little program generations
After code is loaded on processor, processor executes a little program codes to complete the following steps: obtaining the charging starting of power module
Time point;It is estimated according to use state information and restores charging time point;When the electricity of power module is greater than or equal to the first electricity
When, stop power module and continues to be electrically charged;And to when restoring charging time point, power module is made to be charged to the second electricity,
Wherein the second electricity is greater than the first electricity.
Compared with prior art, electronic device of the invention and charging method, can be by believing past use state
Breath carrys out the charging habit of analytic learning user, correctly charging end time point is estimated, so that not influencing charging effect
Under the premise of interrupt charging, while can reach during the charging process protect rechargeable battery effect.
Detailed description of the invention
When the attached drawing of combination accompanying described in detail below is read, it is beneficial to more fully understand the embodiment of the present invention.It answers
Note that each feature is not necessarily been drawn to scale in attached drawing according to the demand for illustrating upper practice.In fact, clear for discussing
Purpose, may arbitrarily increased or decrease the size of each feature.
Fig. 1 show the function block schematic diagram of the electronic device according to some embodiments of the invention.
Fig. 2 show the flow diagram of the intelligent charge mode in the charging method according to embodiments of the present invention.
The time electricity that Fig. 3 A and Fig. 3 B show the intelligent charge mode of charging method according to embodiments of the present invention shows
It is intended to.
Fig. 4 show the further flow diagram according to embodiments of the present invention about charging method.
Fig. 5 is shown according to embodiments of the present invention about the further process signal for judging charge mode in charging method
Figure.
Specific embodiment
Content disclosed below provides many different embodiments or examples, to implement different characteristic of the invention.Hereafter retouch
The particular instance of element and arrangement is stated to simplify the present invention.Certainly, it is restricted that these examples, which are merely illustrative and are not intended to,.It lifts
For example, be described below in fisrt feature is formed above second feature or in second feature may include with direct contact formation the
The embodiment of one feature and second feature, and also may include that can form additional features between fisrt feature and second feature to make
Fisrt feature and feature can be not at the embodiment directly contacted.In addition, the present invention can in each example repeat element symbol and/
Or letter.This repeats to be for simplicity and clearly purpose, and does not indicate that discussed each embodiment and/or configuration in itself
Between relationship.
Further, for ease of description, herein can be used space relative terms (such as " under ", " lower section ", " compared with
It is low ", " top ", " higher " and fellow) an illustrated elements or features and another element (or multiple members are described in all figures
Part) or feature (or multiple features) relationship.Other than the discribed orientation of all figures, space relative terms are intended to comprising using
Or device is differently directed in operation.Equipment can be oriented through other modes and (be rotated by 90 ° or in other orientations) and therefore may be used
Equally interpret relativity descriptor in space used herein.
Referring to Fig. 1, electronic device 10 includes processor 110, sensing module 120, power module 130 and power supply supply
Device 210.Electronic device 10 can be portable electronic device, mobile phone, tablet computer (tablet computer), individual
The devices such as digital assistants (PDA, personal digital assistant), wearable device or laptop.
As shown in Figure 1, processor 110 is coupled to sensing module 120 and power module 130.Processor 110 can be electronics
The central processing unit (CPU, central processing unit) or microprocessor (microprocessor) of device 10.
Power module 130 includes power supply circuit 133 and battery module 131, and power supply circuit 133 couples battery module 131.For
Circuit 133 can be coupled to power supply unit 210 by a charging cable, and the electric energy obtained from power supply unit 210 is provided
To battery module 131.In one embodiment, battery module 131 is lithium battery or other kinds of rechargeable battery.In some realities
It applies in example, power supply unit 210 can be alternating current, computer apparatus or mobile power source etc., and the present invention is not limited thereto.
In one embodiment, sensing module 120 can detect whether power module 130 is electrically connected with power supply unit 210
In this embodiment, when the power supply circuit 133 of power module 130 and power supply unit 210 are electrically connected, sensing module 120
The input signal of power supply unit 210 can be detected.In one embodiment, input signal include current signal, voltage signal or
Other similar electric power signals.
Sensing module 120 is in detecting power module 130 and connect with power supply unit 210 (that is, power supply circuit 133 and electricity
Source power supply unit 210 is electrically connected) or power module 130 when being electrically charged, the first signal can be transmitted to processor 110.Processor 110
The charging start time point (that is, temporal information when starting to charge) of electronic device 10 is read according to the first signal.The present invention
Electronic device 10 be that the current electricity of battery module 131 is read by processor 110 as embodiment, in other embodiments
In, it can also be arranged in electronic device 10 and (not be painted) Lai Shixian for reading the electricity sensing circuit of the electricity of battery module 131.
During lasting charging, power supply unit 210 persistently powers to battery module 131 by power supply circuit 133,
Until the disconnecting of power module 130 and power supply unit 210.When sensing module 120 detect power module 130 not with electricity
When the connection of source power supply unit 210 or power module 130 are interrupted charging, second signal can be transmitted to processor 110.Processor 110
The charging end time point (that is, terminating temporal information when charging) of electronic device 10 is read according to second signal.It is real one
It applies in example, processor 110 can also read the current electric quantity reading of battery module 131 according to second signal.Current electric quantity reading
E.g. battery capacity percentage information.In one embodiment, aforementioned charging start time point and charging end time point are day
At least one of phase information, clock information or the other similar information for indicating date-time.
Charging start time point, current electric quantity reading and charging end time point are recorded as using shape by processor 110
State information.In one embodiment, use state information is when time power supply circuit 133 is connected with the mains the charging starting of power supply unit 210
The turn-off time point or the battery module 131 in turn-off time point that time point, power supply circuit 133 disconnect power supply unit 210
Current electric quantity reading at least one, but not limited to this.Therefore, it is performed every time by recording power module 130
Use state data caused by a complete complete charging procedure establish the charging tcs database of user.In an embodiment
In, complete charging procedure, which refers to from power module 130, connects power supply unit 210 to power module 130 and power supply unit 210
It is electrically connected the process interrupted.
Fig. 1 and Fig. 2 is please referred to, when sensing module 120, which detects power module 130, connects power supply unit 210, in step
Rapid S201, sensing module 120 transmit the first signal to processor 110.Processor 110 reads power module according to the first signal
130 start the charging start time point being electrically charged.Then, step S203 is executed, processor 110 is according to use state information come pre-
Estimate and restores charging time point.It in one embodiment, can not be according to using shape in the case where electronic device 10 is not charged
When state information restores charging time point to estimate.At this point, processor 110 can be filled by the algorithm or normality built in advance
Electricity rule information (such as: the daily schedule of user or charging are accustomed to) restore charging time point to estimate.
In step S205, pass through the mistake of 133 continued power of power supply circuit to battery module 131 in power supply unit 210
Cheng Zhong, processor 110 can continue monitoring battery module 131 is charged to how many electricity.As shown in step S207, work as battery module
131 when being charged to the first electricity, and processor 110 controls power supply circuit 133 and stops the electricity that will be received from power supply unit 210
Battery module 131 can be supplied to (this means, power supply circuit 133 stops to charge to battery module 131).Processor 110 can also capture
Stop charging time point, and records charging time point is stopped to use state information.In one embodiment, stop the charging time
Point includes calendar date, clock time.Since stop charging time point to restore charging time point during power supply circuit 133 all
It is aborted and charges to battery module 131.
In step S209, until processor 110 controls power supply circuit 133 and restores to battery when restoring charging time point
Module 131 charges.Then, battery module 131 is constantly charged to the second electricity from the first electricity, wherein the second electricity is greater than
First electricity.For example, the electricity that the first electricity is 80%, the electricity that the second electricity is 100%.The present invention not restricted representation
The mode of electricity, any mode for representing battery capacity are covered by practical range of the invention.
Processor 110 is to restore charging time point according to aforementioned recorded use state information to estimate.Implement one
In example, after processor 110 obtains charging start time point, use state information can be inserted in algorithm, be terminated with estimating charging
Time point.Charging end time point refers to the end time point for this time complete charging procedure estimated.In one embodiment, charging knot
Beam time point refers to the time point of the disconnecting between electronic device 10 and power supply unit 210 or the capacitor of battery module 131
Measure at least one for the time point being filled.
In one embodiment, processor 110 is in a manner of mathematical statistics, by the high multiple charging start time points of the degree of correlation point
Group is the same group, and each group has corresponding charging start time point and terminates time point.Then, pass through an algorithm
After the initiation of charge time point affiliated group for analyzing this, then filled using termination time point corresponding to the group as this
The charging end time point of electric program.In one embodiment, algorithm is K calculating operation average method (K means algorithm), line
Property Regression algorithms (linear regression algorithm), neural network learn algorithm (neural network
Learning algorithm) or other similar algorithm at least one, but invention is not limited thereto.
Further, the charging end time point estimated back is calculated a period of time by processor 110, restores to fill to obtain
Electric time point.In one embodiment, the end time point that will charge of processor 110 subtracts continuous time span of filling and is restored when charging
Between point.In one embodiment, continue to fill time span and refer to and be charged to battery module 131 needed for second electricity from the first electricity
Time span or predetermined time period (such as 1 hour).It this means, can quilt when battery module 131 is charged to the first electricity
Stop charging a period of time, until processor 110 controls power supply circuit 133 and restores to battery module when restoring charging time point
131 chargings.This intelligent charging method can to avoid power module 130 battery module 131 long lasting for by power supply unit
210 are powered with high current, and cause power module 130 damage the problem of.In addition, by being practised according to the work and rest and charging of user
It is used to estimate the mode for restoring charging time point, in that case it can be decided that when restore to charge, user is avoided to be badly in need of with electronic device 10
When but there are no fully charged problems.
Below also referring to Fig. 1 and Fig. 3 A, in one embodiment, when power module 130 is connect with power supply unit 210
When (that is, charging start time point T0), processor 110 reads the current electricity EQ of battery module 131current, such as 15%.
Then, whether processor 110 judges the current electricity of battery module 131 less than the first electricity EQfirst(e.g.,
80%), to decide whether the charging for carrying out the first stage to battery module 131.In one embodiment, when processor 110 judges
The current electricity EQ of battery module 131currentLess than the first electricity EQfirsWhen, then processor 110 controls power supply circuit 133 and starts
To the charging of battery module 131, (this means, the electric energy obtained from power supply unit 210 is supplied to battery module by power supply circuit 133
131), make the electricity of battery module 131 from current electricity EQcurrentIt is charged to the first electricity EQfirst。
As shown in Figure 3A, the first electricity EQfirstThe corresponding charging time is to stop charging time point Tf.Therefore, in
Only charging time point TfWhen, power supply circuit 133 can stop to battery module 131 charge (this means, power supply circuit 133 stop incite somebody to action from
The electric energy that power supply unit 210 obtains is supplied to battery module 131).In one embodiment, stopping charging time point TfIt is extremely extensive
Multiple charging time point TsTime interval in, power supply circuit 133 stop to battery module 131 charge.Restore charging time point Ts's
Acquisition pattern such as foregoing teachings are not repeated in this.It should be noted that in time electricity schematic diagram of the invention, time shaft table
Show Greenwich Mean Time and date or relative time, any absolute or relativeness form for indicating the time
Within the scope of the present invention.
Until restoring charging time point TsWhen, power supply circuit 133 carries out second stage to battery module 131 in ability and fills
Electricity.Power supply circuit 133 is persistently electrically charged one section and continuous fills time span LreAfterwards, electricity increases to the second electricity by the first electricity.?
It is continuous to fill time span L in one embodimentreIt is 1 hour, or close to 1 hour time span.It is noted that of the invention
In continuous fill time span LreIt is that the electricity of power module 130 can be allowed from the first electricity EQfirstIncrease to the second electricity
EQsecondTime span.
Fig. 3 B is please referred to, whether processor 110 judges the current electricity of power module 130 less than the first electricity EQfirst
(e.g., 80%), to decide whether to carry out battery module 131 charging of first stage.In one embodiment, processor 110 is read
Take the current electricity EQ of battery module 131current.With current electricity EQcurrentFor 85%.Due to the mesh of battery module 131
Preceding electricity EQcurrentGreater than the first electricity EQfirst, processor 110 controls power supply circuit 133 and do not execute the to battery module 131
The charging in one stage, until restoring charging time point Ts, processor 110 controls power supply circuit 133 and executes the to battery module 131
The charging of two-stage, after power supply circuit 133 is executed the charging of second stage, the electricity of power supply circuit 133 is electric from first
Measure EQfirstIncrease to the second electricity EQsecond。
Charging method of the invention record and count power module 130 be executed every time complete charging procedure (such as: from
Just start to charge at full charge) related data (such as: electronic device 10 connect with the mains power supply unit 210 time point, use
Person uses the time point of mobile phone), restore charging time point, charging end time point or power module 130 so as to analyzing and estimating
With the time point of the disconnecting of power supply unit 210 at least one.In this way, charging method of the invention can avoid supplying
Circuit 133 is continuously in the state of high voltage, high current, also can be accurately pre- to extend the service life of power module 130
Estimate and fill time point again, so that the electricity of power supply circuit 133 also can be full when power supply unit 210 disconnects power module 130
The state of electricity.
Referring to Fig. 4, charging method will record use state after power module 130 is disconnected from power supply unit 210
Information, and intelligence learning is executed according to existing use state information.Also referring to Fig. 1 and Fig. 4, in step S401
In, processor 110 judges power supply circuit 133 and whether the electric connection of power supply unit 210 has been interrupted.In general, making
User estimate completed to charge or need using electronic device 10 when, electronic device 10 and power supply unit will be disconnected
210 connection.When the electric connection for judging power supply circuit 133 and power supply unit 210 has been interrupted, then can enter step
S403。
In step S403, processor 110 reads the current electric quantity reading of battery module 131, and the initial time that will charge
Point, charging end time point and use state information is collected as to the current electric quantity of inductive charging end time point reading.One
In embodiment, current electric quantity reading is 100% battery capacity.In another embodiment, current electric quantity reading is 98% electricity
Pond electricity.Whether current electric quantity reading reaches 100%, by the time point of power supply circuit 133 and the disconnection of power supply unit 210
It influences.For example, power supply circuit 133 is in power supply unit 210 of connecting with the mains at 11 points in afternoon May 1, processor 110 is according to use state
Information estimate May 28 a.m. be charging end time point, and back calculate one section it is continuous fill time span, and restored
Charging time point is 7 points of the morning of May 2.In fact, user is also by electronic device 10 at morning 8 May 2 from electricity
Source power supply unit 210 disconnects.Therefore, the current electric quantity reading of battery module 131 is 100%.It is practised to learn the charging of user
It is used, sensing module 120 by each complete charging procedure charging start time point, charge end time point and to inductive charging
The current electric quantity reading of end time point is collected as use state information.In this example, charging start time point is May 1
At 11 points in afternoon, charging end time point are 8 points of morning of May 2, are to the current electric quantity reading of inductive charging end time point
100%.
After processor 110 reads battery module 131 to the current electric quantity reading of inductive charging end time point, in step
In S405, processor 110 judges whether current electric quantity reading meets the second electricity.In one embodiment, the second electricity is set
When being set to 100%, if reading current electric quantity reading is 100%, that is, it can determine whether that current electric quantity reading meets the second electricity.If preceding
Electricity reading meets the second electricity, then will charging estimation results labeled as have reached (that is, when being put between at the end of charging, battery
The capacitance of module 131 is filled).Then, step S407 is executed, processor 110 generates pre- according to charging estimation results
Estimate result record.
In one embodiment, estimation results record can be the cumulative number for having reached or being not up to for charging estimation results
Weight score.In one embodiment, when the charging estimation results of continuous three day same time interval are as follows: have reached, have reached, reached
The weight for arriving, and continuously having reached is 0.6,0.8,1.2, applies the fortune that arithmetic expression (0.6+0.8+1.2)/3 generation is estimated in charging
It calculates result and is approximately equal to 0.86.In one embodiment, when operation result (such as: 0.86) be greater than or equal to setting value (such as 0.8)
When, estimation results record is marked as success.When operation result (such as: 0.6) it is small be equal to setting value (such as 0.8) when, pre-
Estimate result record and is marked as failure.Therefore, it is known that use state information up to the present from estimation results record
It is the information of high-reliability or low reliability.Aforementioned weight calculation mode is only to be illustrated, and the present invention is not limited thereto.
Therefore, when electronic device 10 is electrically charged again, processor 110 can evaluate whether to use according to estimation results record above-mentioned
Intelligent charge mode.If the estimation results of this corresponding charge period are recorded as success, intelligent charge mode above-mentioned is used.Please
Refering to fig. 1, Fig. 3 A and Fig. 5 next it will be described for that general charge mode, scheduling charge mode or intelligence above-mentioned how to be selected to fill
The step of power mode.In one embodiment, general charge mode refers in a complete charging procedure, and power supply circuit 133 is certainly electric
Source module 130 starts when connecting with power supply unit 210 persistently to the charging of battery module 131 until power module 130 and power supply
Power supply unit 210 disconnects or the capacitance of battery module 131 is filled.In one embodiment, scheduling charge mode refers to
In one complete charging procedure, when power supply circuit 133 is connect since power module 130 with power supply unit 210 to battery module
131 chargings can stop to charge to battery module 131 when the electricity of battery module 131 reaches a particular charge, until arranging
Fixed set time point just carries out continuous electricity to battery module 131.
As shown in figure 5, processor 110 obtains charging initial time when power supply circuit 133 is connected to power supply unit 210
Point (step S501), detailed step are similar to abovementioned steps S201.In step S502a, processor 110 is remembered according to estimation results
Record is to judge whether this complete charging procedure can successfully reach.For example, if estimation results be recorded as failure (such as:
Budget result is lower than setting value 0.8), charging end time point T is estimated in expression according to current use state informationeIt is calculated
Recovery charging time point T outsAccuracy may not as expected (such as: battery module 131, which can not be successfully, to be charged to
100%).Therefore, when estimation results are recorded as unsuccessfully, processor 110 can select to execute general charge mode or scheduling charging
Mode (step S505), without executing intelligent charge mode shown in 2~Fig. 3 of earlier figures B.On the other hand, if estimation results are remembered
Record be successfully, then it represents that intelligent charge mode shown in 2~Fig. 3 of earlier figures B can be executed, with according to use state information come in advance
Estimate and restore charging time point, such processor 110 can then execute step S503.The step of Fig. 2 can be executed in step S503
S203~S209.
In another embodiment, charging method also includes to judge whether there is the actual demand for interrupting charging.Processor 110 takes
It must charge (step S501) after start time point, execute step S502b, processor 110 judges charging start time point to extensive
Multiple charging time point TsTime interval between the two, if be not less than the first threshold value (for example, 3 hours).If when charging starting
Between point to restore charging time point TsTime interval between the two can execute general charging less than the first threshold value, processor 110
Or scheduling charging, without executing intelligent charge mode shown in 2~Fig. 3 of earlier figures B.It in one embodiment, can be according to practical feelings
Condition adjusts the first threshold value, and the charging method of demand is met with more elastic offer.On the other hand, if charging start time point extremely
Restore charging time point TsTime interval between the two is not less than (that is, being greater than or equal to) first threshold value, then it represents that can hold
Intelligent charge mode shown in row 2~Fig. 3 of earlier figures B restores charging time point to estimate according to use state information, so
Processor 110 can then execute step S503.Step S203~S209 of Fig. 2 can be executed in step S503.
In another embodiment, charging method further includes that judge whether use state information has with mathematical statistics method credible
Degree.Processor 110 obtains after charging start time point (step S501), executes step S502c, and processor 110 judges use
Whether the deviation of status information is less than the second threshold value (for example, 1).If being not less than the second threshold value, general charging is executed
Or scheduling charging (that is, executing step S505), without executing intelligent charge mode shown in 2~Fig. 3 of earlier figures B.Implement one
In example, deviation can be standard deviation, when the deviation of use state information is less than the second threshold value, before expression can execute
Intelligent charge mode shown in Fig. 2~Fig. 3 B is stated, restores charging time point to estimate according to use state information, handles at this time
Device 110 can then execute step S503.Step S203~S209 of Fig. 2 can be executed in step S503.
In some embodiments, step S502a~S502c shown in fig. 5 is for judging which kind of charge mode taken
The Rule of judgment of (general charge mode, scheduling charging or intelligent charge mode), can be in conjunction with step S502a~S502c's
The judging result of three Rule of judgment determines which kind of charge mode taken.In one embodiment, step S502a~S502c
Judging result when being "Yes", step S503 is just executed, if the judgement of at least one in step S502a~S502c
When result is "No", S505 is thened follow the steps.Other embodiments, but also other combinations of three Rule of judgment, such as
Be two of them judging result be "Yes" when, just execute step S503, it is no to then follow the steps S505.
In conclusion the present invention provides a kind of electronic device and charging method, can believe via past use state
Breath carrys out the charging habit of analytic learning user, correctly charging end time point is estimated, so that not influencing charging effect
Under the premise of interrupt charging, while can reach during the charging process protect rechargeable battery effect.
The feature of several embodiments of above-outlined, so that those skilled in the art is better understood implementation of the invention
Example.It is to be appreciated that those skilled in the art that the present invention can be used as the basis for designing or modifying other processing procedures and structure easily,
To implement the identical purpose of embodiments described herein and/or to realize identical advantage.Those skilled in the art should also recognize
Know, such equivalent structure can not depart from spirit and scope of the invention without departing from spirit and scope of the invention
In the case of generate this paper various change, substitution and change.
Claims (15)
1. a kind of electronic device characterized by comprising
Power module;And
Processor, couples the power module, the processor to:
Obtain the charging start time point of the power module;
It is estimated according to use state information and restores charging time point;
When the electricity of the power module is greater than or equal to the first electricity, suspension continues to charge to the power module;With
And
When stopping to charge to the recoverys charging time point, charging of the starting to the power module, and by the power supply mould
Block charges to the second electricity, wherein second electricity is greater than first electricity.
2. electronic device according to claim 1, which is characterized in that the processor also to:
It estimates the power module and is charged to as first electricity and continuous needed for second electricity fill time span;And
The recovery charging time point is calculated according to charging end time point and the continuous time span of filling.
3. electronic device according to claim 2, which is characterized in that the electronic device further includes sensing module, described
Sensing module couples the processor, wherein the sensing module electrically connects with power supply unit detecting the power module
When connecing, the first signal is issued to the processor, when making the processor charge according to first signal-obtaining to originate
Between point, and when the electric connection that the sensing module detects the power module and the power supply unit is interrupted,
Second signal is issued to the processor, the processor is made to read the charging end time point according to the second signal.
4. electronic device according to claim 3, which is characterized in that the processor reads institute according to the second signal
State the current electric quantity reading of power module;And the processor judges whether the current electric quantity reading meets second electricity
Amount, to generate estimation results record.
5. electronic device according to claim 4, which is characterized in that the power module includes battery module and power supply
Circuit, the battery module couple the power supply circuit, wherein when the estimation results are recorded as successfully and the power supply circuit
When charging to first electricity to the battery module, the power supply circuit stops to charge to the battery module.
6. electronic device according to claim 1, which is characterized in that the power module includes battery module and power supply
Circuit, the battery module couples the power supply circuit, wherein when the charging start time point to the recovery charging time
The time interval of point is greater than or equal to the first threshold value and the power supply circuit charges to first electricity to the battery module
When amount, the power supply circuit stops to charge to the battery module.
7. electronic device according to claim 1, which is characterized in that the power module includes battery module and power supply
Circuit, the battery module couples the power supply circuit, wherein when the deviation of the use state information is less than the second threshold
Value and when the power supply circuit charges to first electricity to the battery module, the power supply circuit stops to the battery
Module charging.
8. a kind of charging method, applied to the electronic device with power module characterized by comprising
Obtain the charging start time point of the power module;
It is estimated according to use state information and restores charging time point;
When the electricity of the power module is greater than or equal to the first electricity, suspension continues to charge to the power module;With
And
When stopping to charge to the recoverys charging time point, charging of the starting to the power module, and by the power supply mould
Block charges to the second electricity, wherein second electricity is greater than first electricity.
9. charging method according to claim 8, which is characterized in that the charging method further include:
It estimates the power module and is charged to as first electricity and continuous needed for second electricity fill time span;And
The recovery charging time point is calculated according to charging end time point and the continuous time span of filling.
10. charging method according to claim 9, which is characterized in that the charging method further include:
When the power module is electrically charged, the first signal is issued to the processor by the sensing module;
It is charged according to first signal-obtaining start time point by the processor;And
When detecting the power module by the sensing module and being interrupted charging, second signal is issued to the processor,
To read the charging end time point according to the second signal by the processor.
11. charging method according to claim 10, which is characterized in that the charging method further include:
The current electric quantity reading of the power module is read according to the second signal;And
Judge whether the current electric quantity reading meets second electricity, to generate estimation results record.
12. charging method according to claim 10, which is characterized in that the power module includes battery module and confession
Circuit, when the estimation results are recorded as successfully and the power supply circuit charges to first electricity to the battery module
When, the power supply circuit stops to charge to the battery module.
13. charging method according to claim 8, which is characterized in that the power module includes battery module and confession
Circuit, when the charging start time point to the time interval for restoring charging time point is greater than or equal to the first threshold value
And the power supply circuit, when charging to first electricity to the battery module, the power supply circuit stops to the battery mould
Block charging.
14. charging method according to claim 8, which is characterized in that the power module includes battery module and confession
Circuit, when the use state information deviation is less than the second threshold value and the power supply circuit fills the battery module
When electricity to first electricity, the power supply circuit stops to charge to the battery module.
15. a kind of non-transient computer-readable recording medium, stores multiple program codes, which is characterized in that when the multiple journey
After sequence code is loaded on processor, the processor executes the multiple program code to complete the following steps:
Obtain the charging start time point of the power module;
It is estimated according to use state information and restores charging time point;
When the electricity of the power module is greater than or equal to the first electricity, suspension continues to charge to the power module;With
And
When stopping to charge to the recoverys charging time point, charging of the starting to the power module, and by the power supply mould
Block charges to the second electricity, wherein second electricity is greater than first electricity.
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CN113659655A (en) * | 2021-07-26 | 2021-11-16 | 珠海格力电器股份有限公司 | Charging method and device for electronic equipment, electronic equipment and storage medium |
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CN106410908A (en) * | 2016-10-28 | 2017-02-15 | 上海传英信息技术有限公司 | Charging system and charging method with charging protection |
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US20140077754A1 (en) * | 2012-09-18 | 2014-03-20 | Charger Coach Llc | System and Method For Scheduling Lithium Ion Battery Charging |
CN106410908A (en) * | 2016-10-28 | 2017-02-15 | 上海传英信息技术有限公司 | Charging system and charging method with charging protection |
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CN113659655A (en) * | 2021-07-26 | 2021-11-16 | 珠海格力电器股份有限公司 | Charging method and device for electronic equipment, electronic equipment and storage medium |
CN113659655B (en) * | 2021-07-26 | 2024-05-10 | 珠海格力电器股份有限公司 | Charging method and device for electronic equipment, electronic equipment and storage medium |
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