CN105811506A

CN105811506A - Method for charging electronic device and electronic device

Info

Publication number: CN105811506A
Application number: CN201610242984.3A
Authority: CN
Inventors: 张俊; 冯红俊; 李家达
Original assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Current assignee: Guangdong Oppo Mobile Telecommunications Corp Ltd
Priority date: 2014-12-24
Filing date: 2014-12-24
Publication date: 2016-07-27
Anticipated expiration: 2034-12-24
Also published as: CN105914810B; CN104578277A; CN105896655A; CN104578277B; CN105896655B; CN105811506B; CN105914810A

Abstract

The invention is applicable to the field of charging, and provides a charging system of an electronic device. The charging system comprises a power supply device and the electronic device, wherein the power supply device is used for supplying power to the electronic device, the electronic device comprises a charging interface, N parallel charging circuits, a switching module, a battery core and a control module, wherein the switching module is connected between the charging interface and the N parallel charging circuits, the battery core is connected with the N parallel charging circuits, and the control module is connected with the N parallel charging circuits and the switching module; and the control module controls the switching module to cut off the connection between a power supply pin of the charging interface and the charging circuits as long as at least one of the following conditions is conformed: a cut-off instruction input by a user is received; the temperature of the battery core of the electronic device is greater than or equal to a temperature threshold value; the positive input voltage of the battery core is greater than or equal to a third voltage threshold value; and the electric quantity of the battery core is greater than or equal to an electric quantity threshold value.

Description

For the method charged for electronic equipment and electronic equipment

The application is the applying date is December in 2014 24, and name is called the division of the Chinese patent application 201410824434.3 of " for for the method for electronic equipment charging and electronic equipment ".

Technical field

The invention belongs to charging field, particularly relate to a kind of method for charging for electronic equipment and electronic equipment.

Background technology

Electronic equipment, refers to the equipment being made up of electronic devices and components such as integrated circuit, transistor, electron tubes；For part electronic equipment, also can to its programming to realize various function.At present, electronic equipment is developed widely in all trades and professions and is applied, including: electronic computer, the controller of the coded program robot controlled, numerical control and stored program controlled etc.；Specifically in life, including smart mobile phone etc. mobile terminal, also include intelligent appliance.

Along with the progress in epoch, the Internet and mobile radio communication provide the function application of magnanimity.User not only can use electronic equipment to carry out tradition application, for instance: use smart mobile phone to answer or call；Meanwhile, user can also use electronic equipment to carry out web page browsing, picture transfer, game etc..Use frequency along with electronic equipment increases, and electronic equipment needs often charging.

In existing electronic equipment, inside it is provided with charging circuit (such as charging chip), after power supply unit is connected (such as grafting) with electronic equipment, by this charging circuit, the battery core of electronic equipment is charged.But at present, if charging circuit is short-circuited, charging circuit is not turned off the function of power supply unit and the electrical connection of battery core, thus causing that voltage that power supply unit directly outputs it and/or electric current are applied directly in battery core, even if battery core is full of, also by force battery core can be charged, battery core can be damaged, even result in the danger such as battery core bursts.

Summary of the invention

It is an object of the invention to provide a kind of method for charging and electronic equipment for electronic equipment, to solve prior art when charging chip short circuit, it is impossible to disconnect the problem to battery core charging in time.

First aspect, the present invention provides a kind of charging method, described electronic equipment includes charging inlet, switch module, the charging circuit of N number of parallel connection and battery core, in the charging process of described electronic equipment, charged electrical signal sequentially passes through described charging inlet, described switch module, M described charging circuit and described battery core, described M is less than or equal to N, and described method includes:

In the charging process of described electronic equipment, it is determined that whether described charging circuit is connected described switch module with described battery core short circuit；

When described switch module is connected with described battery core short circuit by described charging circuit, controls described switch module and disconnect the electrical connection of described charging inlet and described charging circuit, to stop by described charging circuit, battery core being charged.

In conjunction with first aspect, in the first possible implementation of first aspect, described determine whether described first charging circuit is connected described switch module with described battery core short circuit, including:

Determine the voltage in the power pins of described charging inlet；

When voltage in described power pins is less than or equal to the first voltage threshold, it is determined that described switch module is connected by described charging circuit with described battery core short circuit.

In conjunction with the first possible implementation of first aspect or first aspect, in the implementation that the second of first aspect is possible, described determine whether described charging circuit is connected described switch module with described battery core short circuit, including:

Determine the voltage of described battery core；

When the voltage of described battery core is more than or equal to the second voltage threshold, it is determined that described switch module is connected by described charging circuit with described battery core short circuit.

In conjunction with the implementation that the first possible implementation of first aspect or first aspect or the second of first aspect are possible, in the third possible implementation of first aspect, described method also includes:

The charging instruction specifying charging voltage is sent to described power supply unit；

Receive the charging response that described power supply unit sends according to described charging instruction；

According to described charging response, turning on the charge circuit that described battery core is charged by K charging circuit, wherein, described K is less than or equal to described N.

The implementation possible in conjunction with the first embodiment of first aspect or first aspect or the second of first aspect or the third possible implementation of first aspect, in the 4th kind of possible implementation of first aspect, the described quantity K determined the charging circuit that described battery core is charged, including:

Determine the charging stage that described electronic equipment is presently in；

According to the charging stage being presently in, it is determined that the quantity K to the charging circuit that described battery core is charged.

The third possible implementation of the implementation possible in conjunction with the second of first aspect or first aspect or the 4th of first aspect the kind of possible implementation, in the 5th kind of possible implementation of first aspect, described method also includes:

Determine the quantity G to the charging circuit that described battery core is charged；

Turning on the charge circuit that battery core is charged by G charging circuit, wherein, described G is less than or equal to described N, and wherein, described G is different from described K.

4th kind of possible implementation of the implementation possible in conjunction with the first embodiment of first aspect or first aspect or the second of first aspect or the third possible implementation of first aspect or first aspect or the 5th kind of possible implementation of first aspect, in the 6th kind of possible implementation of first aspect, the described quantity M determined the charging circuit that described battery core is charged, including:

According at least one in following parameter, it is determined that the quantity M to the charging circuit that described battery core is charged:

Wherein, described parameter includes: the dispersion charging instruction of user's input, the running status of the ambient temperature of one or more electronic device local environments and application program in electronic equipment.

6th kind of possible implementation of the 4th kind of possible implementation of the implementation possible in conjunction with the first embodiment of first aspect or first aspect or the second of first aspect or the third possible implementation of first aspect or first aspect or the 5th kind of possible implementation of first aspect or first aspect, in the 7th kind of possible implementation of first aspect, described method also includes:

During at least one in meeting the following conditions, disconnect and all turned on the charge circuit that described battery core is charged by charging circuit:

Wherein, described condition includes: the temperature receiving the battery core of the open command of user's input, electronic equipment exceeds more than or be equal to tertiary voltage threshold value and described battery core electricity more than or equal to power threshold more than or equal to the positive pole input voltage of temperature threshold, described battery core.

Second aspect, the present invention provides a kind of electronic equipment, described electronic equipment includes charging inlet, controls module, the charging circuit of N number of parallel connection and battery core, it is characterized in that, described electronic equipment also includes switch module, N number of described charging circuit is connected in parallel between described switch module and described battery core, and described switch module is connected between described charging inlet and described charging circuit, and described control module electrically connects with described switch module and N number of described charging circuit respectively；

Described control module is used for: sequentially pass through in the process that described battery core is charged by described charging inlet, described switch module and M described charging circuit, it is determined that whether described charging circuit is connected described switch module with described battery core short circuit, and described M is less than or equal to N；

Described control module is additionally operable to: when described switch module is connected by described charging circuit with described battery core short circuit, controls described switch module and disconnects the electrical connection of described charging inlet and described charging circuit, to stop by described charging circuit, battery core being charged.

In conjunction with second aspect, in the first possible implementation of second aspect, described control module electrically connects with the power pins of described charging inlet；

Described control module specifically for: determine the voltage in the power pins of described charging inlet, when the voltage in described power pins is less than or equal to the first voltage threshold, it is determined that described switch module is connected by described charging circuit with described battery core short circuit.

In conjunction with the first possible implementation of second aspect or second aspect, in the implementation that the second of second aspect is possible, described control module electrically connects with described battery core；

Described control module specifically for: determine the voltage of described battery core；

In conjunction with the implementation that the first possible implementation of second aspect or second aspect or the second of second aspect are possible, in the third possible implementation of second aspect, described control module is additionally operable to:

The implementation possible in conjunction with the first embodiment of second aspect or second aspect or the second of second aspect or the third possible implementation of second aspect, in the 4th kind of possible implementation of second aspect, described control module is additionally operable to:

The third possible implementation of the implementation possible in conjunction with the second of second aspect or second aspect or the 4th of second aspect the kind of possible implementation, in the 5th kind of possible implementation of second aspect, described control module is additionally operable to:

4th kind of possible implementation of the implementation possible in conjunction with the first embodiment of second aspect or second aspect or the second of second aspect or the third possible implementation of second aspect or second aspect or the 5th kind of possible implementation of second aspect, in the 6th kind of possible implementation of second aspect, described control module is additionally operable to:

6th kind of possible implementation of the 4th kind of possible implementation of the implementation possible in conjunction with the first embodiment of second aspect or second aspect or the second of second aspect or the third possible implementation of second aspect or second aspect or the 5th kind of possible implementation of second aspect or second aspect, in the 7th kind of possible implementation of second aspect, described control module is additionally operable to:

In embodiments of the present invention, after power supply unit electrically connects with the charging inlet of electronic equipment, in the process that battery core is charged, it may be determined that whether charging circuit is short-circuit；If short-circuit, disconnect the electrical connection of described charging inlet and described charging circuit, by described charging circuit, battery core is charged with the equipment of stopping power supply；Thus avoiding the voltage that power supply unit exports directly to be imposed in battery core, by force battery core charging is damaged battery core.

Accompanying drawing explanation

In order to be illustrated more clearly that the technical scheme in the embodiment of the present invention, the accompanying drawing used required in embodiment or description of the prior art will be briefly described below, apparently, accompanying drawing in the following describes is only some embodiments of the present invention, for those of ordinary skill in the art, under the premise not paying creative work, it is also possible to obtain other accompanying drawing according to these accompanying drawings.

Fig. 1 is the workflow diagram of the charging method that the embodiment of the present invention provides；

Fig. 2 determines that a kind of workflow diagram whether described charging circuit is connected described switch module with described battery core short circuit；

Fig. 3 is that this determines another workflow diagram whether described charging circuit is connected described switch module with described battery core short circuit；

Fig. 4 is a kind of workflow diagram of the charging method that the embodiment of the present invention provides；

Fig. 5 is the composition structure chart of the electronic equipment that the embodiment of the present invention provides；

Fig. 6 is that a kind of of electronic equipment that the embodiment of the present invention provides optimizes composition structure；

Fig. 7 is another the optimization composition structure of the electronic equipment that the embodiment of the present invention provides.

Detailed description of the invention

In order to make the purpose of the present invention, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the present invention is further elaborated.Should be appreciated that specific embodiment described herein is only in order to explain the present invention, is not intended to limit the present invention.In order to technical solutions according to the invention are described, illustrate below by specific embodiment.

The electronic equipment that the embodiment of the present invention provides, this electronic equipment includes charging inlet, switch module, charging circuit and battery core etc..Battery core is used for as power electronic equipment.Charging inlet, switch module, charging circuit and battery core are sequentially connected electrically.

What deserves to be explained is, the charging circuit that this electronic equipment includes is N number of, and described N is the positive integer more than 1；N number of charging circuit is connected in parallel between switch module and battery core.As the optional embodiment of the embodiment of the present invention one, described charging circuit is the circuit being made up of electronic device.As the optional embodiment of the embodiment of the present invention one, described charging circuit is charging chip.

What deserves to be explained is, this electronic equipment also has control module；As a kind of embodiment, described control module adopts the existing controller of electronic equipment to realize；As another embodiment, adding described control module in the electronic device, namely this control module is different from the existing controller of electronic equipment；As the specific implementation of described control module, the embodiment of the present invention does not limit, it is possible to adopt processor, single-chip microcomputer or PLD etc. to have the circuit realiration of data processing function.

What deserves to be explained is, control module and electrically connect with switch module, and controlled being turned on or off of switch module by controlling module；Specifically, when controlling module and receiving turn-on command, control the electrical connection of switch module conducting charging inlet and charging circuit；When controlling module and receiving open command, control switch module and disconnect the electrical connection of charging inlet and charging circuit.It should be noted that, which electronic device switch module is adopted realize by the embodiment of the present invention, and the circuit connecting relation between this electronic device, does not all limit.Illustrating, switch module adopts metal-oxide-semiconductor to realize；The grid of metal-oxide-semiconductor, source electrode and drain electrode connect respectively and control module, the power pins of charging inlet and each charging circuit；Control module and controlled whether the electrical connection of conducting charging inlet and charging circuit by the level signal that the grid controlled to metal-oxide-semiconductor exports.

What deserves to be explained is, control module and also electrically connect with each charging circuit (i.e. N number of charging circuit) respectively, control module and can control whether through certain charging circuit, battery core to be charged.Such as, when control module receives dispersion charging instruction, control module and only turn on multiple charging circuits that described dispersion charging instruction is specified, the electrical connection of the multiple charging circuits conducting switch module specified by described dispersion charging instruction and battery core, only forms the charge circuit that battery core is charged by multiple charging circuits that described dispersion charging instruction specifies.

As stated in the Background Art, when battery core being charged by charging circuit, it is possible to because of this charging circuit short circuit so that the voltage of the signal of telecommunication of power supply unit output is directly over the charging circuit of short circuit and is imposed in battery core, damages battery core, even results in battery core and burst.Therefore, the embodiment of the present invention has been connected a switch module between charging circuit and the power pins of charging inlet, if certain charging circuit short circuit, can directly control this switch module and disconnect the charge circuit that battery core is charged by all charging circuits, stop battery core being charged.

It should be noted that, the charging inlet of electronic equipment includes data pin；After electronic equipment is connected with power supply unit by its charging inlet, electronic equipment can be carried out data transmission by this data pin and power supply unit, the data can transmitted by this data pin are not limited to the data relevant to charging, it is also possible to transmission audio-video document, document files etc. data.

Specifically, the workflow of this charging method of the embodiment of the present invention shown in Fig. 1, but for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.This charging method of the embodiment of the present invention includes A1 and A2.

It should be noted that, in the charging process of described electronic equipment, charged electrical signal sequentially passes through described charging inlet, described switch module, M described charging circuit and described battery core, and described M is less than or equal to N, and described M is positive integer.Specifically, power supply unit exports charged electrical signal to electronic equipment, and this charged electrical signal sequentially passes through described charging inlet, described switch module, M described charging circuit in parallel and described battery core, with this charged electrical signal, described battery core is charged.

A1, in the charging process of described electronic equipment, it is determined that whether described charging circuit is connected described switch module with described battery core short circuit.

Specifically, after power supply unit electrically connects with the charging inlet of electronic equipment, when switch module turns on the power pins of described charging inlet with one or more charging circuit, power supply unit sequentially passes through the charging inlet of electronic equipment, switch module and M charging circuit in parallel and battery core is charged.

Wherein, because described M is positive integer, namely battery core can be charged by least one charging circuit by A1.When M is more than 1, battery core is charged by the charging circuit of M in parallel, M charging circuit in parallel share the electric current to battery core charging；So, it is possible to decrease the caloric value that each charging circuit brings because of electric energy loss.

It addition, in the different charging stages that battery core is charged, control module and can adjust the numerical value of M, namely adjust and use how many charging circuits battery core to be charged simultaneously, be illustrated below:

In the preliminary filling stage, control module and determine that M is numerical value " 1 ", namely control module and only turn on a charging circuit, form the charge circuit to battery core charging by this charging circuit；

At constant-current charging phase, controlling module and determine that M is numerical value " 2 ", namely control module two charging circuits of conducting, form the charge circuit to battery core charging respectively by two charging circuits, battery core is charged by two charging circuits parallelly simultaneously；

At constant voltage charging phase, control module and determine that M is numerical value " 1 ", namely control module and only turn on a charging circuit, form the charge circuit to battery core charging by this charging circuit.

What deserves to be explained is, the embodiment of the present invention is in the process that battery core is charged, to how determining with described battery core short circuit is connected, whether described switch module is specifically determined that mode does not limit by described charging circuit.

As determining that whether described charging circuit one determines mode by described switch module is connected with described battery core short circuit, in real time detect whether described charging circuit is connected described switch module with described battery core short circuit, but do not limit how detecting the specific implementation that switch module is connected with described battery core short circuit；

Illustrating, the electric current of charging circuit is flow through in detection, if be detected that electric current more than current threshold, represent that switch module is connected by charging circuit with battery core short circuit；Illustrate again, at constant voltage charging phase, the voltage of the signal of telecommunication that detection charging circuit exports to battery core, if be detected that voltage more than battery core voltage (i.e. battery core voltage under having been filled with state) in the saturated condition, represent that switch module is connected by charging circuit with battery core short circuit.

A2, when described switch module is connected with described battery core short circuit by described charging circuit, controls described switch module and disconnects the electrical connection of described charging inlet and described charging circuit, to stop by described charging circuit, battery core being charged；

Specifically, the switch module that the embodiment of the present invention provides is by controlling module control, specifically, is controlled being switched on or off of switch module by controlling module；When controlling module and controlling switch module conducting, turn on the power pins of charging inlet and the electrical connection of charging circuit；When controlling module and controlling switch module disconnection, disconnect the power pins of charging inlet and the electrical connection of charging circuit.

In embodiments of the present invention; control module once detect that described switch module is connected by described charging circuit with described battery core short circuit; control switch module immediately and disconnect the electrical connection of described charging inlet and described charging circuit; charge circuit battery core charged by arbitrary charging circuit is all disconnected; stop battery core being charged, protect battery core.

A kind of optimized work flow of this charging method of the embodiment of the present invention shown in Fig. 2, for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

As the optional embodiment of the embodiment of the present invention one, referring to Fig. 2, described determine whether described first charging circuit is connected described switch module with described battery core short circuit, including A11 and A12.

A11, it is determined that the voltage in the power pins of described charging inlet；

A12, when the voltage in described power pins is less than or equal to the first voltage threshold, it is determined that described switch module is connected by described charging circuit with described battery core short circuit.

Voltage in the power pins how determining described charging inlet is specifically determined that mode does not limit by present embodiment.As an implementation, voltage detecting circuit it is provided with in electronic equipment, this voltage detecting circuit electrically connects with the power pins of charging inlet, voltage detecting circuit in the process of battery core charging is detected the voltage of the power pins of charging inlet in real time, and the Voltage Feedback detected is controlled module.Preferably, this voltage detecting circuit is located in control module, the voltage detecting circuit controlled in module detects the voltage of the power pins of charging inlet in real time.

Under normal circumstances, the charging voltage that battery core can bear is certain, and the voltage of the signal of telecommunication that power supply unit exports to electronic equipment is greater than the charging voltage that battery core can bear, if charging circuit is short-circuit, the voltage of power supply unit output can directly be imposed in battery core, the voltage of power supply unit output can directly be imposed in battery core, and whether battery core is full of all is charged by force to battery core, damages battery core.

Additionally, if charging circuit is short-circuit, because of battery core be directly over the charging circuit of short circuit, the switch module of conducting electrically connect with the power pins of charging inlet, the voltage of battery core is understood direct by the voltage pull-down of the power pins of charging inlet, cause that the power pins of charging inlet is greatly reduced.Therefore, the voltage that present embodiment has been rushed according to battery core under the different charging stages determines described first voltage threshold, the voltage that described first voltage threshold determined has rushed higher than battery core, during concrete application, the experimental data such as the impedance of internal circuit according to switch module determines this first voltage threshold.

Illustrate, at constant voltage charging phase, it is determined that the first voltage threshold more than battery core voltage under having been filled with state.

It addition, battery core is under having been filled with state, also determine the first voltage threshold, it is determined that the first voltage threshold more than battery core voltage under having been filled with state.So, when battery core has been filled with, if charging circuit is short-circuit, fail to disconnect the charge circuit to battery core charging；Power supply unit forces the voltage in battery core through short-circuit charging circuit can more than battery core voltage under having been filled with state, by force battery core is charged, the voltage of charging inlet power source pin also can by the voltage pull-down of battery core simultaneously, cause that the voltage in this power pins is less than described first voltage threshold, meets the condition provided.

Another optimized work flow of this charging method of the embodiment of the present invention shown in Fig. 3, for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

As the optional embodiment of the embodiment of the present invention one, referring to Fig. 3, described determine whether described charging circuit is connected described switch module with described battery core short circuit, including A13 and A14.

A13, it is determined that the voltage of described battery core；

A14, when the voltage of described battery core is more than or equal to the second voltage threshold, it is determined that described switch module is connected by described charging circuit with described battery core short circuit.

In the present embodiment, in electronic equipment, it is provided with voltage detecting circuit, voltage detecting circuit in the process of battery core charging is detected the voltage of battery core in real time, and the Voltage Feedback detected is controlled module.Preferably, this voltage detecting circuit is located in control module, the voltage detecting circuit controlled in module detects the voltage of battery core in real time.

Under normal circumstances, the charging voltage that battery core can bear is certain, if the voltage of the signal of telecommunication that power supply unit exports to electronic equipment is greater than the charging voltage that battery core can bear, such as charging circuit short circuit, the voltage of power supply unit output can directly be imposed in battery core, whether battery core is full of all is charged by force to battery core, damages battery core.

Therefore, the upper limit of the charging voltage that present embodiment can bear in the different charging stages according to battery core determines described second voltage threshold, it is determined that the charging voltage that can bear more than battery core of this second voltage threshold.

Illustrate, at constant voltage charging phase, it is determined that the second voltage threshold more than battery core voltage under having been filled with state.

It addition, in battery core under having been filled with state, also determine the second voltage threshold, it is determined that the second voltage threshold more than battery core voltage under having been filled with state.So, when battery core has been filled with, if charging circuit is short-circuit, but do not disconnect the charge circuit to battery core charging yet；Power supply unit is forced the voltage in battery core through short-circuit charging circuit and more than battery core voltage under having been filled with state, can be forced the voltage in battery core and can reach the second voltage threshold, meets the condition provided.

Need strong be, the embodiment of the present invention supports that battery core is charged by multiple charging circuits simultaneously, therefore, battery core can be carried out large current charge (large current charge of such as more than 3A) by the embodiment of the present invention, additionally also supporting high-voltage charge, namely power supply unit can have 5V or the signal of telecommunication of above voltage to electronic equipment output.

Illustrate, at constant-current charging phase, for reducing loss, power supply unit has 5V or the signal of telecommunication of above voltage to electronic equipment output, the charging circuit of electronic equipment is to this signal of telecommunication blood pressure lowering and improves electric current, battery core is charged by multiple charging circuits in parallel simultaneously, and the charging current to battery core charging is 3A or above electric current simultaneously.

Another optimized work flow of this charging method of the embodiment of the present invention shown in Fig. 4, for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

As the optional embodiment of the embodiment of the present invention one, referring to Fig. 4, described charging method also includes A3, A4 and A5.

A3, sends the charging instruction specifying charging voltage to described power supply unit.

Power supply unit described in present embodiment, it is possible to be charging adapter, it is also possible to be other electronic equipment.But it should be noted that, when electronic equipment is connected with power supply unit, is exported charged electrical signal by power supply unit to the charging inlet of electronic equipment, with this signal of telecommunication, the battery core of electronic equipment is charged.

It addition, power supply unit has controller, after power supply unit is connected with electronic equipment, this controller can communicate with the control module of electronic equipment.The control module of electronic equipment can send charging to the controller of charging adapter and adjust signal (such as described charging instruction), and the controller of power supply unit adjusts signal adjustment according to the charging that receives: voltage that power supply unit exports and/or electric current and/or power.

As an optional embodiment, the control module of electronic equipment sends this charging instruction to the controller of charging adapter, and charging adapter has the signal of telecommunication of the voltage that described charging instruction is specified to electronic equipment output；Preferably, the voltage that described charging instruction is specified is more than or equal to 5V, for instance 5V, 9V or 12V.

Such as, when charging adapter receives the charging instruction that electronic equipment sends, if this charging instruction specifies 9V, then the controller of charging adapter judges whether to support the voltage output of 9V, if it is determined that supporting, under the control of this controller, export the signal of telecommunication of 9V to the charging inlet of electronic equipment.Under default situations, or the voltage specified of this charging instruction not for 5V, 9V or 12V time, charging adapter exports the signal of telecommunication of 5V to the charging inlet of electronic equipment.

A4, receives the charging response that described power supply unit sends according to described charging instruction.

In the present embodiment, described power supply unit receives this charging instruction, and when judging to support to fill soon, responds to the charging corresponding to charging instruction described in module feedback that control of electronic equipment.As present embodiment one case study on implementation, described power supply unit receives this charging instruction, and when being judged to not support to fill soon, is not feedback person to the control module of electronic equipment and does not support instruction to electronic equipment feedback.

A5, according to described charging response, turns on the charge circuit that described battery core is charged by K charging circuit, and wherein, described K is less than or equal to described N.

And then, described control module receives the charging response corresponding with described charging instruction of described power supply unit feedback, generates the dispersion charging instruction specifying K charging circuit.Control module and select K charging circuit according to this dispersion charging instruction, turn on the charge circuit that described battery core is charged by this K charging circuit, through this K charging circuit in parallel, described battery core is charged.

As the optional embodiment of the embodiment of the present invention one, A5 is done one and specifically optimizes, the described quantity K determined the charging circuit that described battery core is charged, including:

As above-mentioned, the charging stage includes preliminary filling stage, constant-current charging phase and constant voltage charging phase.Because of the different charging stages, the charging current that battery core can bear is different, and present embodiment adjusts the data K of charging circuit in the different charging stages.

Illustrate, in the preliminary filling stage, the charging current that a charging circuit is enough to provide described battery core needed for the preliminary filling stage, control module and determine that M is numerical value " 1 "；Control module and only turn on a charging circuit, form the charge circuit to battery core charging by this charging circuit；

At constant-current charging phase, two charging circuits are enough to provide described battery core in the charging current needed for constant-current charging phase, control module and determine that M is numerical value " 2 ", namely module two charging circuits of conducting are controlled, forming the charge circuit to battery core charging respectively by two charging circuits, battery core is charged by two charging circuits parallelly simultaneously；

At constant voltage charging phase, the charging current that one charging circuit is enough to provide described battery core needed for constant voltage charging phase, control module and determine that M is numerical value " 1 ", namely control module and only turn on a charging circuit, form the charge circuit to battery core charging by this charging circuit.

As a kind of detailed description of the invention to the method described in Fig. 2, described method also includes:

Turning on the charge circuit that battery core is charged by G charging circuit, wherein, described G is less than or equal to described N.

Specifically, A3 to described power supply unit send specify charging voltage charging instruction after, if this power supply unit is not supported to export the charging voltage that this charging instruction is specified, then this power supply unit will not to electronic equipment feedback charging response；Correspondingly, the control module in electronic equipment does not receive this charging response in preset time period, and determines data G.Then, controlling module and select G charging circuit from N number of charging circuit, this battery core is charged by G the charging circuit that conducting is selected simultaneously.

As a concrete case of present embodiment, described G is different from described K；So, control module when not receiving the charging response corresponding with this charging instruction, do not support battery core to be charged with K charging circuit simultaneously.

Such as, the charging voltage that this charging instruction is specified is high pressure, if power supply unit support exports this high pressure, then electronic equipment needs the number of charging circuit in parallel to be at least K, and described K is more than described G.Battery core is charged by K the charging circuit namely needing parallel connection simultaneously, K charging circuit share charging current；The number of charging circuit will be unable to undertake charging current less than K, it is easy to damages charging circuit.

Again such as, the charging voltage that this charging instruction is specified is low pressure, if power supply unit support exports this low pressure, then electronic equipment needs the number of charging circuit in parallel to be at most K, and described K is less than or equal to described G.Battery core is charged by K the charging circuit namely needing parallel connection simultaneously, K charging circuit share charging current；The number of charging circuit reaches K can undertake charging current, so needing more charging circuit, many charging circuit work can bring power attenuation.

As a concrete case of present embodiment, described G is equal to described K；Namely no matter whether described power supply unit supports to export the charging voltage that described charging instruction is specified, and controls module and all controls K charging circuit conducting, by K charging circuit in parallel, battery core is charged simultaneously.

As the optional embodiment of the embodiment of the present invention one, the described quantity M determined the charging circuit that described battery core is charged, including:

According at least one in following parameter, it is determined that the quantity M to the charging circuit that described battery core is charged.

Specifically, with in the process that described battery core is charged by the charging circuit lower than M, if described control module receives dispersion charging instruction, the charge circuit that described battery core is charged by the charging circuit of conducting M；Wherein, described M is specified by described dispersion charging instruction, and described M is positive integer, and described M is more than described M.

Wherein, described dispersion charging instruction is triggered by parameter, and described parameter includes: the charging instruction of user's input, the running status of the ambient temperature of one or more electronic device local environments and application program in electronic equipment.

As a kind of implementation being triggered described dispersion charging instruction by described parameter, particularly as follows: artificially manipulate electronic equipment this dispersion charging instruction triggered.At this, specific implementation how triggering this scattered charging instruction not being limited, for instance electronic equipment provides button or menu, triggers this dispersion charging instruction during this button of user's touch-control, user triggers this dispersion charging instruction by this menu setecting ground.

What deserves to be explained is, described parameter also includes: in electronic equipment, the ambient temperature of one or more electronic device local environments is higher than temperature threshold；Wherein, the different operating temperature range for different electronic devices is determined, the maximum temperature of this operating temperature range is defined as this temperature threshold.

Illustrate, filter out the one or more electronic devices that need to work under the working environment that temperature is relatively low in the electronic device；Near the electronic device filtered out, add temperature detecting module, detected the temperature (i.e. ambient temperature) of the electronic device local environment filtered out by this temperature detecting module in real time.The specific implementation of described temperature detecting module is not limited by present embodiment, for instance the physical circuit that temperature detecting module is comprised does not limit；Such as, temperature detecting module can adopt temperature sensor to realize；Again such as, temperature detecting module can adopt critesistor to realize.For certain electronic device filtered out, if be detected that the ambient temperature residing for this electronic device is higher than the temperature threshold (described parameter namely occur) corresponding with this electronic device, trigger described dispersion charging instruction.

Preferably, described parameter includes: in charging circuit, the ambient temperature of one or more electronic device local environments is higher than temperature threshold；Wherein, the different operating temperature range for different electronic devices is determined, the maximum temperature of this operating temperature range is defined as this temperature threshold.

Illustrating, temperature detecting module detects the ambient temperature of each charging circuit local environment in real time, and exports the temperature detected to controlling module.For certain charging circuit, if controlling module to judge that ambient temperature that temperature detecting module detects, this charging circuit local environment is more than corresponding temperature threshold, triggers described dispersion charging instruction, by this dispersion charging instruction；And specified charging circuit by described dispersion charging instruction, the number of the charging circuit that described dispersion charging instruction is specified is M.Wherein, the charging circuit that described dispersion charging instruction is specified does not include: local environment temperature is higher than this charging circuit of temperature threshold.

Described parameter also includes: the ad hoc event causing electronic equipment Accelerating running and causing electronic equipment to distribute amount of heat, for instance the running status of application program；Described ad hoc event at least includes: 1, and manipulation electronic equipment performs application program at a high speed and causes that electronic equipment distributes amount of heat, and performing this event of application program is described ad hoc event；Such as game played by manipulation electronic equipment, performs this event of games；2, the circuit in manipulation electronic equipment carries out data acquisition etc. needs circuit continuous firing to cause that electronic equipment distributes amount of heat, and this event of circuit continuous firing in electronic equipment that controls is described ad hoc event.

In the process described battery core charged with the charging circuit less than M, after receiving the dispersion charging instruction triggered by described parameter, with M charging circuit in parallel, described battery core is charged.Relative to the charging circuit less than M, described battery core is charged, with M charging circuit, the charging of described battery core is had the advantage that because M charging circuit is in parallel to battery core input current, so sharing the electric current relative reduction of each charging circuit, thus the heat that each charging circuit distributes because of electric energy loss when charging also reduces relatively, thus the relative reduction ambient temperature of this resistance local environment.

As the optional embodiment of the embodiment of the present invention one, described charging method also includes:

In the present embodiment, when control module detects described condition, described open command is triggered.Described control module, when receiving open command, controls described switch module and disconnects the power pins of described charging inlet and the electrical connection of all charging circuits, to disconnect the charge circuit that described battery core is charged by all charging circuits.

What deserves to be explained is, described condition at least includes following three kinds:

The first, artificial trigger electronics generates this open command.But, artificially how trigger electronics is generated to the mode of this open command, does not limit at this, for instance: trigger this open command by the button pre-set on electronic equipment.

The second, controls to generate this open command when module detects abnormal charge condition, and wherein, trigger control module generates the abnormal charge condition of this open command, need to preset；The abnormal charge condition that can set includes but not limited to:

1, the process that battery core is charged detects the temperature of battery core, the temperature detected meets or exceeds, and temperature threshold (namely charges normal required temperature)；

2, in the process that battery core is charged, detect that the voltage inputted to the positive pole of battery core has exceeded and charge normal the voltage (i.e. tertiary voltage threshold value) that can bear.

The third, control module and detect that the electricity of battery core generates this open command when having been filled with.Wherein, in charging process, the voltage of battery core can be detected in real time, control module and judge whether to have been filled with (namely judging that whether described battery core electricity is more than or equal to power threshold) according to the voltage detected, if it is determined that battery core has been filled with electricity, generate this open command.

In the present embodiment, once control module to receive open command, controlling switch module and disconnecting the power pins of charging inlet and the electrical connection of all charging circuits, disconnecting the charge circuit that described battery core is charged by all charging circuits, stop battery core being charged.

Should be understood that in embodiments of the present invention, the size of the sequence number of above-mentioned each process is not meant to the priority of execution sequence, and the execution sequence of each process should be determined with its function and internal logic, and the implementation process of the embodiment of the present invention should not constituted any restriction.

It should be noted that the charging method that the embodiment of the present invention provides is applicable to the electronic equipment that the embodiment of the present invention provides.

Fig. 5 illustrates the composition structure of the electronic equipment that the embodiment of the present invention provides, and for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

The electronic equipment that the present embodiment provides, as shown in Figure 5, described electronic equipment include charging inlet 4, control module 1, the charging circuit 3 of N number of parallel connection and battery core 2, described electronic equipment also includes switch module 5, N number of described charging circuit 3 is connected in parallel between described switch module 5 and described battery core 2, described switch module 5 is connected between described charging inlet 4 and described charging circuit 3, and described control module 1 electrically connects with described switch module 5 and N number of described charging circuit 3 respectively；

Described control module 1 is used for: sequentially pass through in the process that described battery core 2 is charged by described charging inlet 4, described switch module 5 and M described charging circuit 3, determining whether described charging circuit 3 is connected described switch module 5 with the short circuit of described battery core 2, described M is less than or equal to N；

Described control module 1 is additionally operable to: when described switch module 5 is connected by described charging circuit 3 with the short circuit of described battery core 2, control described switch module 5 and disconnect the electrical connection of described charging inlet 4 and described charging circuit 3, to stop by described charging circuit 3, battery core 2 being charged.

Fig. 6 illustrates that a kind of of electronic equipment that the embodiment of the present invention provides optimizes composition structure, for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

As the optional embodiment of the embodiment of the present invention one, referring to Fig. 6, described control module 1 electrically connects with the power pins of described charging inlet 4；

Described control module 1 specifically for: determine the voltage in the power pins of described charging inlet 4, when the voltage in described power pins is less than or equal to the first voltage threshold, it is determined that described charging circuit 3 by described switch module 5 and described battery core 2 short circuit be connected.

Fig. 7 illustrates that a kind of of electronic equipment that the embodiment of the present invention provides optimizes composition structure, for the ease of describing, illustrate only the part relevant to the embodiment of the present invention.

As the optional embodiment of the embodiment of the present invention one, referring to Fig. 7, described control module 1 electrically connects with described battery core 2；

Described control module 1 specifically for: determine the voltage of described battery core 2；

When the voltage of described battery core 2 is more than or equal to the second voltage threshold, it is determined that described switch module 5 is connected by described charging circuit 3 with the short circuit of described battery core 2.

As the optional embodiment of the embodiment of the present invention one, described control module 1 is additionally operable to:

According to described charging response, turning on the charge circuit that described battery core 2 is charged by K charging circuit 3, wherein, described K is less than or equal to described N.

According to the charging stage being presently in, it is determined that the quantity K to the charging circuit 3 that described battery core 2 is charged.

Determine the quantity G to the charging circuit 3 that described battery core 2 is charged；

Turning on the charge circuit that battery core 2 is charged by G charging circuit 3, wherein, described G is less than or equal to described N, and wherein, described G is different from described K.

According at least one in following parameter, it is determined that the quantity M to the charging circuit 3 that described battery core 2 is charged:

During at least one in meeting the following conditions, disconnect and all turned on the charge circuit that described battery core 2 is charged by charging circuit 3:

Wherein, described condition includes: the temperature receiving the battery core 2 of the open command of user's input, electronic equipment exceeds more than or be equal to tertiary voltage threshold value and described battery core 2 electricity more than or equal to power threshold more than or equal to the positive pole input voltage of temperature threshold, described battery core 2.

Should be understood that the electronic equipment in Fig. 5 to Fig. 7 can correspond to shown in Fig. 1 to Fig. 4 for the electronic equipment in the method charged for electronic equipment, it is possible to achieve the corresponding function of the electronic equipment in method, for sake of simplicity, do not repeat them here.

Those of ordinary skill in the art are it is to be appreciated that the module of each example that describes in conjunction with the embodiments described herein and algorithm steps, it is possible to being implemented in combination in of electronic hardware or computer software and electronic hardware.These functions perform with hardware or software mode actually, depend on application-specific and the design constraint of technical scheme.Professional and technical personnel specifically can should be used for using different methods to realize described function to each, but this realization is it is not considered that beyond the scope of this invention.

Those skilled in the art is it can be understood that arrive, for convenience and simplicity of description, and the electronic equipment of foregoing description and the specific works process of each module, it is possible to reference to the corresponding process in preceding method embodiment, do not repeat them here.

In several embodiments provided herein, it should be understood that disclosed electronic equipment and method, it is possible to realize by another way.Such as, the embodiment of electronic equipment described above is merely schematic, such as, the division of described module, being only a kind of logic function to divide, actual can have other dividing mode when realizing, for instance multiple modules or assembly can in conjunction with or be desirably integrated into another system, or some features can ignore, or do not perform.Another point, shown or discussed coupling each other or direct-coupling or communication connection can be through INDIRECT COUPLING or the communication connection of some interfaces, device or module, it is possible to be electrical, machinery or other form.

The described module illustrated as separating component can be or may not be physically separate, and the parts shown as module can be or may not be physical module, namely may be located at a place, or can also be distributed on multiple mixed-media network modules mixed-media.Some or all of module therein can be selected according to the actual needs to realize the purpose of the present embodiment scheme.

It addition, each functional module in each embodiment of the present invention can be integrated in a processing module, it is also possible to be that modules is individually physically present, it is also possible to two or more modules are integrated in a module.

If described function is using the form realization of software function module and as independent production marketing or use, it is possible to be stored in a computer read/write memory medium.Based on such understanding, part or the part of this technical scheme that prior art is contributed by technical scheme substantially in other words can embody with the form of software product, this computer software product is stored in a storage medium, including some instructions with so that a computer equipment (can be personal computer, server, or the network equipment etc.) perform all or part of step of method described in each embodiment of the present invention.And aforesaid storage medium includes: USB flash disk, portable hard drive, read only memory (ROM, Read-OnlyMemory), the various media that can store program code such as random access memory (RAM, RandomAccessMemory), magnetic disc or CD.

Above content is in conjunction with concrete preferred implementation further description made for the present invention, it is impossible to assert that specific embodiment of the invention is confined to these explanations.For general technical staff of the technical field of the invention; make some equivalent replacements or obvious modification without departing from the inventive concept of the premise; and performance or purposes are identical, the scope of patent protection that the present invention is determined all should be considered as belonging to by submitted claims.

Claims

1. the charging system of an electronic equipment, it is characterised in that include power supply unit and electronic equipment, wherein,

Described power supply unit, is used for described power electronic equipment；

Described electronic equipment, including charging inlet, the charging circuit of N number of parallel connection, the switch module being connected between the charging circuit of described charging inlet and described N number of parallel connection, the battery core that is connected with the charging circuit of described N number of parallel connection, the control module being connected with the charging circuit of described N number of parallel connection and described switch module, wherein, during at least one in meeting the following conditions, described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits:

Receive the open command of user's input；

The temperature of the battery core of electronic equipment is more than or equal to temperature threshold；

The positive pole input voltage of described battery core is more than or equal to tertiary voltage threshold value；

Described battery core electricity is more than or equal to power threshold.

2. the charging system of electronic equipment as claimed in claim 1, it is characterized in that, if be detected that the electric current flowing through described charging circuit more than current threshold, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.

3. the charging system of electronic equipment as claimed in claim 1, it is characterized in that, if be detected that constant voltage charging phase described in the voltage of the signal of telecommunication that exports to described battery core of charging circuit more than described battery core voltage in the saturated condition, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.

4. the charging system of electronic equipment as claimed in claim 1, it is characterised in that the signal of telecommunication of described power supply unit output 5V or above voltage.

5. the charging system of electronic equipment as claimed in claim 4, it is characterised in that described power supply unit output 5V, 9V or 12V voltage.

6. an electronic equipment, it is characterized in that, including charging inlet, the charging circuit of N number of parallel connection, the switch module being connected between the charging circuit of described charging inlet and described N number of parallel connection, the battery core that is connected with the charging circuit of described N number of parallel connection, the control module being connected with the charging circuit of described N number of parallel connection and described switch module, wherein, during at least one in meeting the following conditions, described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits:

Receive the open command of user's input；

Described battery core electricity is more than or equal to power threshold.

7. electronic equipment as claimed in claim 6, it is characterized in that, if be detected that the electric current flowing through described charging circuit more than current threshold, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.

8. electronic equipment as claimed in claim 6, it is characterized in that, if be detected that constant voltage charging phase described in the voltage of the signal of telecommunication that exports to described battery core of charging circuit more than described battery core voltage in the saturated condition, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.

9. the method for charging for electronic equipment, it is characterized in that, electronic equipment, including charging inlet, the charging circuit of N number of parallel connection, the switch module being connected between the charging circuit of described charging inlet and described N number of parallel connection, the battery core that is connected with the charging circuit of described N number of parallel connection, control module with the charging circuit of described N number of parallel connection and described switch module are connected, said method comprising the steps of:

During at least one in meeting the following conditions, described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits:

Receive the open command of user's input；

Described battery core electricity is more than or equal to power threshold.

10. as claimed in claim 9 for the method for electronic equipment charging, it is characterised in that the signal of telecommunication of described power supply unit output 5V or above voltage.

11. it is as claimed in claim 9 for the method for electronic equipment charging, it is characterised in that described power supply unit output 5V, 9V or 12V voltage.

12. as claimed in claim 9 for the method for electronic equipment charging, it is characterised in that also to include:

If be detected that the electric current flowing through described charging circuit more than current threshold, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.

13. as claimed in claim 9 for the method for electronic equipment charging, it is characterised in that also to include:

If be detected that constant voltage charging phase described in the voltage of the signal of telecommunication that exports to described battery core of charging circuit more than described battery core voltage in the saturated condition, then described control module controls described switch module and disconnects the power pins of described charging inlet and the connection of all described charging circuits.