CN105449764A

CN105449764A - Charging method, charging apparatus and charging system

Info

Publication number: CN105449764A
Application number: CN201510947388.0A
Authority: CN
Inventors: 刘欢欢; 段伟亮; 杨大伟
Original assignee: Xiaomi Inc
Current assignee: Beijing Xiaomi Technology Co Ltd; Xiaomi Inc
Priority date: 2015-12-17
Filing date: 2015-12-17
Publication date: 2016-03-30
Anticipated expiration: 2035-12-17
Also published as: CN105449764B

Abstract

The invention discloses a charging method, a charging apparatus and a charging system, and belongs to the field of the electronic technique. The charging method comprises the steps of sending a first setup command to a charger according to a preset target voltage and target current, wherein the first setup command comprises the target voltage and the target current; the first setup command is used for indicating the charger to set the output voltage as the target voltage and to set the maximum output current as the target current; receiving a setup completion signal from the charger, wherein the setup completion signal is used for indicating the charger that the setup of the output voltage and the maximum current is completed; sending a charging command to the charger according to the setup completion signal to trigger the charger to output electric energy; and receiving the electric energy output by the charger by taking the voltage as the target voltage and taking the maximum current as the target current. According to the charging method, the charging apparatus and the charging system, the problem of poor universality of the charger is solved; an effect of improving the universality of the charger is achieved; and the charging method, the charging apparatus and the charging system are used for charging terminals.

Description

Charging method, Apparatus and system

Technical field

The disclosure relates to electronic technology field, particularly a kind of charging method, Apparatus and system.

Background technology

Along with the fast development of electronic technology, increasing terminal (as mobile phone, panel computer etc.) is dissolved in the life of people gradually.These terminals all have quick-charge function, a lot of terminal all supports that (namely output voltage is 5V to 5V (volt)-2A (peace), maximum output current is that the charger of 2A can to terminal quick charge), the multiple quick charge standard such as 9V-1.2A.

In correlation technique, when terminal occurs that electricity is not enough, need to adopt and charger that the quick charge standard of terminal support matches to terminal quick charge, example, when terminal supports 5V-2A and 9V-1.2A two kinds of quick charge standards, need to adopt and support the charger of 5V-2A quick charge standard or adopt to support that the charger of 9V-1.2A quick charge standard is to this terminal quick charge.

Summary of the invention

In order to solve Related Technical Issues, present disclose provides a kind of charging method, Apparatus and system.Described technical scheme is as follows:

According to first aspect of the present disclosure, provide a kind of charging method, the method comprises:

The first setting command is sent to charger according to the target voltage pre-set and target current, first setting command comprises target voltage and target current, it is target voltage that first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current;

What receive that charger sends is provided with signal, is provided with signal and is used to indicate charger and has completed the voltage of output and the setting of maximum current;

According to being provided with signal, sending charge command to charger, exporting electric energy to trigger charger;

Receiving charger is target voltage according to voltage, the electric energy that maximum current exports for target current.

Optionally, the method also comprises:

Obtain the target device parameter of terminal, target device parameter comprises at least one in hardware parameter and identification information;

Whether record target device parameter in the first corresponding relation that inquiry is preset, the first corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and charging parameter value comprises magnitude of voltage and current value;

When there is target device parameter in the first corresponding relation, in the first corresponding relation, obtain the target charging parameter value that target device parameter is corresponding;

Current value in target charging parameter value is defined as target current;

Magnitude of voltage in target charging parameter value is defined as target voltage.

Optionally, the method also comprises:

Receive the indication information that charger sends, indication information is used to indicate the voltage and current of the current output of charger;

Display indication information.

Optionally, the method also comprises:

When do not receive in the preset time period after the first setting command sends be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, the method also comprises:

When there is not target device parameter in the first corresponding relation, display reminding information, information is used to indicate voltage and the maximum current that user arranges charger output;

Reception arranges instruction, arranges instruction and comprises operating voltage and operating current;

Detect operating voltage and the whether satisfied default electrical energy conditions of operating current, default electrical energy conditions comprises format condition and the range of condition of voltage and current;

When operating voltage and operating current meet default electrical energy conditions, operating voltage is defined as target voltage, operating current is defined as target current.

Optionally, the method also comprises:

When operating voltage and operating current do not meet default electrical energy conditions, or when first setting command send after preset time period in do not receive be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, detect operating voltage and the whether satisfied default electrical energy conditions of operating current, comprising:

Detect whether operating voltage is legal voltage format, and belong to the predetermined voltage range of charger support;

When operating voltage is legal voltage format, and when belonging to the predetermined voltage range of charger support, detect whether operating current is legal current format, and belong to the predetermined current scope of charger support;

When operating current is legal current format, and when belonging to the predetermined current scope of charger support, determination operation voltage and operating current meet presets electrical energy conditions.

Optionally, the first corresponding relation is the corresponding relation of device parameter and rechargeable standard, the corresponding at least one group of charging parameter value of each rechargeable standard;

In the first corresponding relation, obtain the target charging parameter value that target device parameter is corresponding, comprising:

The target rechargeable standard that target device parameter is corresponding is obtained in the first corresponding relation;

At least one group charging parameter value corresponding according to target rechargeable standard determination target rechargeable standard;

From at least one group of charging parameter value, select a charging parameter value as target charging parameter value.

According to second aspect of the present disclosure, provide a kind of charging method, the method comprises:

The first setting command that receiving terminal sends, the first setting command comprises target voltage and target current, and target voltage and target current are that terminal pre-sets;

The voltage arranging charger output according to the first setting command is target voltage;

The maximum current arranging charger output according to the first setting command is target current;

When completing the voltage and the arranging of maximum current that charger exports, sending to terminal and being provided with signal;

The charge command that receiving terminal sends;

Be target voltage according to charge command according to voltage, maximum current is that target current exports electric energy to terminal.

Optionally, the method also comprises:

Obtain the voltage and current of current output;

Send indication information to terminal, indication information is used to indicate the voltage and current of current output.

Optionally, the method also comprises:

The second setting command that receiving terminal sends, second setting command is do not receive in the preset time period after terminal detects the first setting command transmission to be provided with signal, or operating voltage and operating current not to meet and send when presetting electrical energy conditions, operating voltage and operating current be terminal receive instruction is set after obtain;

According to the second setting command arrange charger export voltage and maximum current be default value.

According to the third aspect of the present disclosure, provide a kind of charging device, this charging device comprises:

First sending module, be configured to send the first setting command according to the target voltage pre-set and target current to charger, first setting command comprises target voltage and target current, it is target voltage that first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current;

First receiver module, is configured to receive that charger sends is provided with signal, is provided with signal and is used to indicate charger and has completed the voltage of output and the setting of maximum current;

Second sending module, is configured to, according to being provided with signal, send charge command to charger, exports electric energy to trigger charger;

Second receiver module, being configured to receive charger is target voltage according to voltage, the electric energy that maximum current exports for target current.

Optionally, this charging device also comprises:

First acquisition module, be configured to the target device parameter obtaining terminal, target device parameter comprises at least one in hardware parameter and identification information;

Enquiry module, be configured to inquire about in the first default corresponding relation whether record target device parameter, the first corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and charging parameter value comprises magnitude of voltage and current value;

Second acquisition module, when being configured to there is target device parameter in the first corresponding relation, obtains the target charging parameter value that target device parameter is corresponding in the first corresponding relation;

First determination module, is configured to the current value in target charging parameter value to be defined as target current;

Second determination module, is configured to the magnitude of voltage in target charging parameter value to be defined as target voltage.

Optionally, this charging device also comprises:

3rd receiver module, be configured to the indication information receiving charger transmission, indication information is used to indicate the voltage and current of the current output of charger;

First display module, is configured to show indication information.

Optionally, this charging device also comprises:

3rd sending module, be configured to when first setting command send after preset time period in do not receive be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, this charging device also comprises:

Second display module, when being configured to there is not target device parameter in the first corresponding relation, display reminding information, information is used to indicate voltage and the maximum current that user arranges charger output;

4th receiver module, is configured to reception and arranges instruction, arranges instruction and comprises operating voltage and operating current;

Detection module, be configured to detect operating voltage and the whether satisfied default electrical energy conditions of operating current, default electrical energy conditions comprises format condition and the range of condition of voltage and current;

3rd determination module, is configured to, when operating voltage and operating current meet default electrical energy conditions, operating voltage is defined as target voltage, operating current is defined as target current.

Optionally, this charging device also comprises:

4th sending module, be configured to when operating voltage and operating current do not meet default electrical energy conditions, or when first setting command send after preset time period in do not receive be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, detection module, is configured to:

Second acquisition module, is configured to:

According to fourth aspect of the present disclosure, provide a kind of charging device, this charging device comprises:

First receiver module, be configured to the first setting command that receiving terminal sends, the first setting command comprises target voltage and target current, and target voltage and target current are that terminal pre-sets;

First arranges module, and the voltage being configured to arrange according to the first setting command charger output is target voltage;

Second arranges module, and the maximum current being configured to arrange according to the first setting command charger output is target current;

First sending module, is configured to, when completing the voltage and the arranging of maximum current that charger exports, send be provided with signal to terminal;

Second receiver module, is configured to the charge command that receiving terminal sends;

Output module, being configured to according to charge command according to voltage is target voltage, and maximum current is that target current exports electric energy to terminal.

Optionally, this charging device also comprises:

Acquisition module, is configured to the voltage and current obtaining current output;

Second sending module, be configured to send indication information to terminal, indication information is used to indicate the voltage and current of current output.

Optionally, this charging device also comprises:

3rd receiver module, be configured to the second setting command that receiving terminal sends, second setting command is do not receive in the preset time period after terminal detects the first setting command transmission to be provided with signal, or operating voltage and operating current not to meet and send when presetting electrical energy conditions, operating voltage and operating current be terminal receive instruction is set after obtain;

3rd arranges module, be configured to according to the second setting command arrange charger export voltage and maximum current be default value.

According to the 5th aspect of the present disclosure, a kind of charging device is provided, comprises:

Processor;

For the memory of the executable instruction of storage of processor;

Wherein, processor is configured to:

According to the 6th aspect of the present disclosure, provide a kind of charging device, this charging device comprises:

Charging adjustment module, controller, bluetooth module and power output interface,

Charging adjustment module is connected with controller, power output interface respectively, and bluetooth module is connected with controller;

Controller is used for:

The first setting command sent by bluetooth module receiving terminal, the first setting command comprises target voltage and target current, and target voltage and target current are that terminal pre-sets;

According to the first setting command by charging adjustment module, the voltage arranging charger output is target voltage;

According to the first setting command by charging adjustment module, the maximum current arranging charger output is target current;

When completing the voltage and the arranging of maximum current that charger exports, by bluetooth module, sending to terminal and being provided with signal;

By the charge command that bluetooth module receiving terminal sends;

Be target voltage according to charge command according to voltage, maximum current is target current, exports electric energy by power output interface to terminal.

Optionally, controller also for:

Obtain the voltage and current of current output;

Send indication information by bluetooth module to terminal, indication information is used to indicate the voltage and current of current output.

Optionally, controller also for:

The second setting command sent by bluetooth module receiving terminal, second setting command is do not receive in the preset time period after terminal detects the first setting command transmission to be provided with signal, or operating voltage and operating current not to meet and send when presetting electrical energy conditions, operating voltage and operating current be terminal receive instruction is set after obtain;

According to the second setting command by charging adjustment module, the voltage and the maximum current that arrange charger output are default value.

According to the 7th aspect of the present disclosure, a kind of charging system is provided, comprises: terminal and charger;

Terminal comprises the charging device described in the third aspect, and charger comprises the charging device described in fourth aspect;

Or,

Terminal comprises the charging device described in the 5th aspect, and charger is the charging device described in the 6th aspect.

The technical scheme that the disclosure provides can comprise following beneficial effect:

Terminal can send the first setting command according to the target voltage pre-set and target current to charger, the voltage that charger arranges charger output according to the first setting command is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the charge command that last charger sends according to terminal is target voltage according to voltage, maximum current is target current, electric energy is exported to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, therefore, improve the versatility of charger.

Should be understood that, it is only exemplary and explanatory that above general description and details hereinafter describe, and can not limit the disclosure.

Accompanying drawing explanation

Accompanying drawing to be herein merged in specification and to form the part of this specification, shows and meets embodiment of the present disclosure, and is used from specification one and explains principle of the present disclosure.

Fig. 1 is the implementation environment schematic diagram involved by charging method that each embodiment of the disclosure provides;

Fig. 2 is the flow chart of a kind of charging method according to an exemplary embodiment;

Fig. 3 is the flow chart of a kind of charging method according to an exemplary embodiment;

Fig. 4-1 is the flow chart of a kind of charging method according to an exemplary embodiment;

Fig. 4-2 is the flow charts obtaining target charging parameter value corresponding to target device parameter in Fig. 4-1 illustrated embodiment;

Fig. 4-3 is schematic diagrames of terminal demonstration indication information in Fig. 4-1 illustrated embodiment;

Fig. 5-1 is the flow chart of a kind of charging method according to an exemplary embodiment;

Fig. 5-2 is the schematic diagrames arranging interface in Fig. 5-1 illustrated embodiment;

Fig. 5-3 is that in Fig. 5-1 illustrated embodiment, terminal detects operating voltage and the whether satisfied flow chart presetting electrical energy conditions of operating current;

Fig. 5-4 is the schematic diagrames of pointing out interface in Fig. 5-1 illustrated embodiment;

Fig. 6-1 is the block diagram of a kind of charging device according to an exemplary embodiment;

Fig. 6-2 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 6-3 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 6-4 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 6-5 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 6-6 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 7-1 is the block diagram of a kind of charging device according to an exemplary embodiment;

Fig. 7-2 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 7-3 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 7-4 is block diagrams of a kind of charging device according to an exemplary embodiment;

Fig. 8 is the block diagram of a kind of charging device according to an exemplary embodiment;

Fig. 9 is the block diagram of a kind of charging device according to an exemplary embodiment.

By above-mentioned accompanying drawing, illustrate the embodiment that the disclosure is clear and definite more detailed description will be had hereinafter.These accompanying drawings and text description be not in order to limited by any mode the disclosure design scope, but by reference to specific embodiment for those skilled in the art illustrate concept of the present disclosure.

Embodiment

Here will be described exemplary embodiment in detail, its sample table shows in the accompanying drawings.When description below relates to accompanying drawing, unless otherwise indicated, the same numbers in different accompanying drawing represents same or analogous key element.Execution mode described in following exemplary embodiment does not represent all execution modes consistent with the disclosure.On the contrary, they only with as in appended claims describe in detail, the example of apparatus and method that aspects more of the present disclosure are consistent.

Fig. 1 is the implementation environment schematic diagram involved by charging method that each embodiment of the disclosure provides, and this implementation environment can comprise: terminal 11, charger 12, server 13 and AC power 14.

Terminal 11 can be the equipment that multiple quick charge standard supported by mobile phone, panel computer, pocket computer on knee etc.

Charger 12 can set up wireless connections with terminal 11, as Wireless Fidelity is (English: WIreless-FIdelity; Be called for short: WiFi) connection or bluetooth connection etc.Charger 12 is connected with AC power 14, and the alternating voltage for AC power 14 being exported is converted to the receivable voltage of terminal 11.

Server 13 can be a station server, or the server cluster be made up of some station servers, or a cloud computing service center.Server 13 can be connected by wireless network or cable network with terminal 11.

Fig. 2 is the flow chart of a kind of charging method according to an exemplary embodiment, the terminal 11 that the present embodiment is applied in implementation environment shown in Fig. 1 with this charging method illustrates, optionally, this charging method can be performed by the system of terminal, also can perform by being arranged on should be used in terminal, this is applied as the application of charger 12 correspondence.This charging method can comprise following several step:

In step 201, the first setting command is sent to charger according to the target voltage pre-set and target current, first setting command comprises target voltage and target current, it is target voltage that first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current.

In step 202., what receive that charger sends is provided with signal, is provided with signal and is used to indicate charger and has completed the voltage of output and the setting of maximum current.

In step 203, according to being provided with signal, sending charge command to charger, exporting electric energy to trigger charger.

In step 204, receiving charger is target voltage according to voltage, the electric energy that maximum current exports for target current.

In sum, the charging method that disclosure embodiment provides, terminal can send the first setting command according to the target voltage pre-set and target current to charger, the voltage that charger arranges charger output according to the first setting command is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the charge command that last charger sends according to terminal is target voltage according to voltage, maximum current is that target current exports electric energy to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, therefore, improve the versatility of charger.

Optionally, the method can also comprise:

Current value in target charging parameter value is defined as target current;

Optionally, the method can also comprise:

Display indication information.

Optionally, the method can also comprise:

Optionally, the default value of the voltage that charger exports is 5V, and the default value of the maximum current that charger exports is 500 milliamperes (mA).

Optionally, the predetermined voltage range of charger support is 5V ~ 20V;

The predetermined current scope of charger support is 0A ~ 4A.

Fig. 3 is the flow chart of a kind of charging method according to an exemplary embodiment, and the charger 12 that the present embodiment is applied in implementation environment shown in Fig. 1 with this charging method illustrates.This charging method can comprise following several step:

In step 301, the first setting command that receiving terminal sends, the first setting command comprises target voltage and target current, and target voltage and target current are that terminal pre-sets.

In step 302, according to the first setting command arrange charger export voltage be target voltage.

In step 303, according to the first setting command arrange charger export maximum current be target current.

In step 304, when completing the voltage and the arranging of maximum current that charger exports, sending to terminal and being provided with signal.

In step 305, the charge command of receiving terminal transmission.

Within step 306, be target voltage according to charge command according to voltage, maximum current is that target current exports electric energy to terminal.

In sum, the charging method that disclosure embodiment provides, the voltage that the first setting command that charger can send according to terminal arranges charger output is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the last charge command sent according to terminal is again target voltage according to voltage, maximum current is that target current exports electric energy to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, this improves the versatility of charger.

Optionally, the method can also comprise:

Obtain the voltage and current of current output;

Optionally, the method can also comprise:

Receive external communication voltage, the voltage of external communication voltage is 220V;

Be direct voltage by external communication voltage transitions, the voltage range of direct voltage is 5V ~ 20V, and the current range of direct voltage is 0A ~ 4A.

Optionally, the default value of voltage is 5V, and the default value of maximum current is 500mA.

Fig. 4-1 is the flow chart of a kind of charging method according to an exemplary embodiment, and the present embodiment is applied in implementation environment shown in Fig. 1 with this charging method and illustrates.This charging method can comprise following several step:

In step 401, terminal and charger establish a communications link.

The charging method that disclosure embodiment provides can be performed by the system of terminal, also can perform by being arranged on should be used in terminal, this is applied as application corresponding to charger, this application can with database, this database is used for the corresponding relation of the memory device parameter rechargeable standard corresponding with device parameter, and this database and server keep being connected, the content stored in database can upgrade according to the content in server, meanwhile, the program arranging charge mode is accordingly preserved in this application.

Example, terminal can be established a communications link by Blue-tooth communication method and charger, also can be established a communications link by WiFi communication mode and charger.Terminal and charger simultaneously access network can carry out this charging method.

In step 402, terminal obtains the target device parameter of terminal.

After terminal and charger communication successful connection, the output of first charge closing device.Terminal obtains the target device parameter of terminal, and this target device parameter can comprise at least one in hardware parameter and identification information.Suppose that terminal is mobile phone, example, hardware parameter can be operating system, central processing unit (English: CentralProcessingUnit; Be called for short: CPU) model, cpu frequency, expansion capacity etc.; Identification information can be mobile phone model.

In step 403, target device parameter whether is recorded in the first corresponding relation that terminal inquiry is preset.

First corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and charging parameter value comprises magnitude of voltage and current value.This charging parameter value is quick charge parameter value.Example, the corresponding relation of device parameter and charging parameter value can be as shown in table 1, and the charging parameter value that device parameter A is corresponding is 5V-2A, and the charging parameter value that device parameter B is corresponding is 9V-1.2A.Terminal can inquire about the target device parameter whether recording acquisition in the first corresponding relation, suppose in step 402, the target device parameter that terminal obtains is C, then terminal is by inquiry first corresponding relation, can obtain not recording this target device parameter C in the first corresponding relation.

Table 1

Device parameter	Charging parameter value
		A	5V-2A
B	9V-1.2A

In step 404, when there is target device parameter in the first corresponding relation, terminal obtains target charging parameter value corresponding to target device parameter in the first corresponding relation.

Suppose in step 402, the target device parameter that terminal obtains is A, then terminal is by inquiry first corresponding relation, and can obtain recording this target device parameter A in the first corresponding relation, terminal can obtain target charging parameter value 5V-2A corresponding to target device parameter A in the first corresponding relation.

Optionally, the first corresponding relation is the corresponding relation of device parameter and rechargeable standard, the corresponding at least one group of charging parameter value of each rechargeable standard.In the first corresponding relation, obtain the target charging parameter value that target device parameter is corresponding, as shown in the Fig. 4-2, following a few sub-steps can be comprised:

In sub-step 4041, terminal obtains target rechargeable standard corresponding to target device parameter in the first corresponding relation.

This target rechargeable standard is fast target rechargeable standard.Suppose that terminal is mobile phone, example, the first corresponding relation can be the corresponding relation of the rechargeable standard that main flow mobile phone model and main flow mobile phone model are supported.When there is the mobile phone model of this mobile phone in the main flow mobile phone model in the first corresponding relation, mobile phone can obtain target rechargeable standard corresponding to this mobile phone model in the first corresponding relation, suppose that this target rechargeable standard is b1, the corresponding two groups of charging parameter value (i.e. two charge modes) of b1, these two groups of charging parameter value are 5V-2A and 9V-1.2A respectively.

In sub-step 4042, at least one group of charging parameter value that terminal is corresponding according to target rechargeable standard determination target rechargeable standard.

For the mobile phone in sub-step 4041, according to target rechargeable standard b1, mobile phone determines that two groups of charging parameter value that b1 is corresponding are 5V-2A and 9V-1.2A.

In sub-step 4043, terminal selects a charging parameter value as target charging parameter value from least one group of charging parameter value.

Equally, for the mobile phone in sub-step 4041, after mobile phone determines two groups of charging parameter value corresponding to b1 according to target rechargeable standard b1, can from two groups of charging parameter value, select a charging parameter value as target charging parameter value, example, this target charging parameter value can be 9V-1.2A.

In step 405, the current value in target charging parameter value is defined as target current by terminal.

For the mobile phone in sub-step 4043, the target charging parameter value that mobile phone is determined from two groups of charging parameter value is 9V-1.2A, then the current value 1.2A in 9V-1.2A can be defined as target current by mobile phone, the maximum current that this target current exports for arranging charger.

In a step 406, the magnitude of voltage in target charging parameter value is defined as target voltage by terminal.

For the mobile phone in sub-step 4043, the target charging parameter value that mobile phone is determined from two groups of charging parameter value is 9V-1.2A, then the magnitude of voltage 9V in 9V-1.2A can be defined as target voltage by mobile phone, the voltage that this target voltage exports for arranging charger.

In step 407, terminal sends the first setting command according to the target voltage pre-set and target current to charger.

First setting command comprises target voltage and target current, and it is target voltage that the first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current.The target current that terminal is determined according to step 405 and the target voltage that step 406 is determined send the first setting command comprising target voltage and target current to charger.For the mobile phone in sub-step 4043, terminal sends the first setting command according to target voltage 9V and target current 1.2A to charger, and this first setting command comprises target voltage 9V and target current 1.2A.

In a step 408, the voltage that charger arranges charger output according to the first setting command is target voltage.

For the mobile phone in sub-step 4043, the voltage that charger arranges charger output according to the first setting command is 9V.

In step 409, the maximum current that charger arranges charger output according to the first setting command is target current.

For the mobile phone in sub-step 4043, the maximum current that charger arranges charger output according to the first setting command is 1.2A.

In step 410, when completing the voltage and the arranging of maximum current that charger exports, charger sends to terminal and is provided with signal.

The voltage setting up charger output according to the first setting command when charger is target voltage, and set up maximum current that charger exports when being target current, send to terminal and be provided with information, notification terminal charger has completed the voltage of output and the setting of maximum current.

In step 411, terminal, according to being provided with signal, sends charge command to charger, exports electric energy to trigger charger.

After charger is provided with signal to terminal transmission, terminal is according to being provided with signal, and enable charger exports, example, and terminal can send charge command to charger, exports electric energy to trigger charger.

In step 412, charger is target voltage according to charge command according to voltage, and maximum current is that target current exports electric energy to terminal.

The charge command that charger sends according to terminal, be target voltage according to voltage, maximum current is that target current exports electric energy to terminal, starts to terminal charge, until terminal charge completes the connection of (terminal full charging) or user's disconnected end and charger, this charging process terminates.

In step 413, when first setting command send after preset time period in do not receive be provided with signal time, terminal sends the second setting command to charger.

Second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.After terminal sends the first setting command according to the target voltage pre-set and target current to charger, if do not receive in preset time period and be provided with signal, illustrate that the first setting command may not send successfully, or the first setting command sends successfully, but charger is according to unsuccessful voltage and the maximum current arranging charger output of the first setting command, now, terminal can send the second setting command to charger, and instruction charger exports electric energy according to default value, to terminal charge.Wherein, the default value of the voltage that charger exports is 5V, and the default value of the maximum current that charger exports is 500mA.

In step 414, charger according to the second setting command arrange charger export voltage and maximum current be default value.

It is default value that charger arranges according to the second setting command the voltage that charger exports, and the maximum current of output starts to terminal charge after being default value.

In step 415, charger exports electric energy according to default value to terminal.

Optionally, charger exports to terminal charge according to 5V-500mA.

In step 416, charger obtains the voltage and current of current output.

Charger can obtain the voltage and current of current output, and by Blue-tooth communication method, the voltage and current of current output is sent to terminal, and the voltage and current of terminal to the current output of charger is shown.

In step 417, charger sends indication information to terminal.

Indication information is used to indicate the voltage and current of the current output of charger.

In step 418, terminal demonstration indication information.

Terminal shows this indication information, enables user see the voltage and current of the current output of charger easily after receiving the indication information that charger sends, and reaching terminal can the object of the current charged state of Real-Time Monitoring and charge parameter.Example, the indication information of terminal demonstration can as shown in Fig. 4-3, and the voltage that this display information 43 comprises the current output of charger is 9V, and the electric current of the current output of charger is 0.9A.

Target device parameter whether is recorded in the first corresponding relation that terminal inquiry is preset, when there is target device parameter in the first corresponding relation, the charging method that can provide according to disclosure embodiment realizes the object that multiple quick charge standard supported by a kind of charger.This charging method can make a kind of charger carry out quick charge to multiple terminal.

Fig. 5-1 is the flow chart of a kind of charging method according to an exemplary embodiment, and the present embodiment is applied in implementation environment shown in Fig. 1 with this charging method and illustrates.This charging method can comprise following several step:

In step 501, terminal and charger establish a communications link.

The charging method that disclosure embodiment provides can be performed by the system of terminal, also can perform by being arranged on should be used in terminal, this is applied as application corresponding to charger, this application can with database, and this database is used for the corresponding relation of the memory device parameter rechargeable standard corresponding with device parameter.

Example, terminal can be established a communications link by Blue-tooth communication method and charger, also can be established a communications link by WiFi communication mode and charger.

In step 502, terminal obtains the target device parameter of terminal.

After terminal and charger communication successful connection, the output of first charge closing device.Terminal obtains the target device parameter of terminal, and this target device parameter can comprise at least one in hardware parameter and identification information.

In step 503, target device parameter whether is recorded in the first corresponding relation that terminal inquiry is preset.

First corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and charging parameter value comprises magnitude of voltage and current value.This charging parameter value is quick charge parameter value.

In step 504, when there is not target device parameter in the first corresponding relation, terminal demonstration information.

Information is used to indicate voltage and the maximum current that user arranges charger output.When there is not target device parameter in the first corresponding relation, the voltage can pointing out user that charger output is manually set and maximum current, example, can to be provided with until user and after confirming, result is set, terminal receives and arranges instruction accordingly, detect operating voltage and the whether satisfied default electrical energy conditions of operating current, operating voltage is the voltage of the charger output that user is arranged, and operating current is the maximum current of the charger output that user is arranged; When user is provided with but does not confirm to arrange result in preset time period, terminal can send the second setting command to charger, and this second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Example, as shown in Fig. 5-2, when there is not target device parameter in the first corresponding relation, terminal can provide one to arrange interface 52 to user, so that user arranges by this voltage and maximum current that interface arranges charger output.After user is provided with, can click " completing " button 53, notification terminal user completes setting.When user wants that exiting this arranges interface, " exiting " button 54 can be clicked and exit this interface is set.

In step 505, terminal receives and arranges instruction.

Instruction is set and comprises operating voltage and operating current.Arranging instruction is that user passes through to arrange when interface arranges the voltage and maximum current that charger exports and produces.

In step 506, terminal detects operating voltage and the whether satisfied default electrical energy conditions of operating current.

Default electrical energy conditions comprises format condition and the range of condition of voltage and current.Terminal receive user trigger instruction is set after, first can detect voltage that user exported by the charger arranging interface and arrange and maximum current whether legal, whether in specified output area (i.e. the predetermined voltage range of charger support and predetermined current scope).

Optionally, step 506, as shown in Fig. 5-3, can comprise following a few sub-steps:

In sub-step 5061, terminal detects whether operating voltage is legal voltage format, and belongs to the predetermined voltage range of charger support.

Example, legal voltage format can predetermined operation voltage be a decimal or an integer, and wherein, decimal is made up of integer part, fractional part and decimal point.Suppose that operating voltage comprises English alphabet as " f ", it is not legal voltage format that terminal can detect operating voltage; Suppose that operating voltage comprises additional character as " # ", it is not legal voltage format that terminal also can detect operating voltage; Suppose that operating voltage comprises two decimal points, it is not legal voltage format that terminal also can detect operating voltage.Example, the predetermined voltage range that charger is supported can be 5V ~ 20V.This predetermined voltage range is that charger receives external communication voltage, and is the voltage range of direct voltage, this direct voltage by this external communication voltage transitions.Wherein, the voltage of external communication voltage is 220V.Suppose that operating voltage is 15V, it is legal voltage range that terminal can detect operating voltage, and belongs to the predetermined voltage range of charger support.

In sub-step 5062, when operating voltage is legal voltage format, and when belonging to the predetermined voltage range of charger support, terminal detects whether operating current is legal current format, and belongs to the predetermined current scope of charger support.

When operating voltage is legal voltage format, and when belonging to the predetermined voltage range of charger support, whether terminal detects operating current is again legal current format, and belongs to the predetermined current scope of charger support.Legal current format can with reference to the related description of the legal voltage format in sub-step 5061.Example, as shown in Fig. 5-4, when operating voltage and operating current do not meet default electrical energy conditions, also can show a prompting interface 55 to user, by this prompting interface 55, prompting user resets and the voltage submitting to charger to export and maximum current.User can click " confirmation " button 56 and reset, and also can click " cancellation " button 57 and cancel this setting up procedure.When user inputs preset times, at least one in operating voltage and operating current does not still meet when presetting electrical energy conditions, and terminal can send the second setting command to charger.Second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Example, the predetermined current scope that charger is supported can be 0A ~ 4A.This predetermined voltage range is that charger receives external communication voltage, and is the current range of direct voltage, this direct voltage by this external communication voltage transitions.Wherein, the voltage of external communication voltage is 220V.Suppose that operating current is 3A, it is legal current format that terminal can detect operating current, and belongs to the predetermined current scope of charger support.

In sub-step 5063, when operating current is legal current format, and when belonging to the predetermined current scope of charger support, terminal determination operation voltage and operating current meet presets electrical energy conditions.

When operating voltage is legal voltage format, and belong to the predetermined voltage range of charger support, operating current is legal current format simultaneously, and when belonging to the predetermined current scope of charger support, terminal can determination operation voltage and the satisfied default electrical energy conditions of operating current.

In step 507, when operating voltage and operating current meet default electrical energy conditions, operating voltage is defined as target voltage by terminal, and operating current is defined as target current.

After what terminal received that user triggers arrange instruction, detect operating voltage and operating current legal, and in specified output area, operating current using operating voltage as target voltage, can be defined as target current by terminal.

In step 508, terminal sends the first setting command according to the target voltage pre-set and target current to charger.

First setting command comprises the target voltage and target current that step 507 determines, it is target voltage that the first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current.

In step 509, the voltage that charger arranges charger output according to the first setting command is target voltage.

Step 509 can refer step 408 be described.

In step 510, the maximum current that charger arranges charger output according to the first setting command is target current.

Step 510 can refer step 409 be described.

In step 511, when completing the voltage and the arranging of maximum current that charger exports, charger sends to terminal and is provided with signal.

In step 512, terminal, according to being provided with signal, sends charge command to charger, exports electric energy to trigger charger.

After charger is provided with signal to terminal transmission, terminal is according to being provided with signal, and enable charger exports, example, can send charge command to charger, exports electric energy to trigger charger.

In step 513, charger is target voltage according to charge command according to voltage, and maximum current is that target current exports electric energy to terminal.

The charge command that charger sends according to terminal is target voltage according to voltage, and maximum current is that target current exports electric energy to terminal, starts to terminal charge, until terminal charge completes or the connection of user's disconnected end and charger, this charging process terminates.

In the step 514, when operating voltage and operating current meet preset electrical energy conditions time, or when first setting command transmission after preset time period in do not receive be provided with signal time, terminal sends the second setting command to charger.

Second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.When terminal detects operating voltage and operating current does not meet default electrical energy conditions, terminal can send the second setting command to charger, makes charger export electric energy according to default value, to terminal charge, when terminal detects operating voltage and the satisfied default electrical energy conditions of operating current, after terminal sends the first setting command according to the target voltage pre-set and target current to charger, do not receive in preset time period and be provided with signal, illustrate that the first setting command may not send successfully, or, first setting command has sent successfully, but charger is according to unsuccessful voltage and the maximum current arranging charger output of the first setting command, now, terminal can send the second setting command to charger, charger is made to export electric energy according to default value, to terminal charge.Wherein, the default value of the voltage that charger exports is 5V, and the default value of the maximum current that charger exports is 500mA.

In step 515, charger according to the second setting command arrange charger export voltage and maximum current be default value.

In step 516, charger exports electric energy according to default value to terminal.

Optionally, charger exports to terminal charge according to 5V-500mA.

In step 517, charger obtains the voltage and current of current output.

In step 518, charger sends indication information to terminal.

In step 519, terminal demonstration indication information.

Terminal shows this indication information, enables user see the voltage and current of the current output of charger easily after receiving the indication information that charger sends, and reaching terminal can the current charged state of Real-Time Monitoring, charge parameter etc.

In correlation technique, it is (English: UniversalSerialBus that multiple terminal all supports to be different from common USB; Be called for short: USB) the quick charge standard of 5V-500mA rechargeable standard, accordingly, adaptive charger is all with the identification module automatically identifying various different rechargeable standard, but be limited to the aspects such as technical reason, charging device method cost, charging reliability, a kind of specific quick charge standard only supported by general a kind of charger.In correlation technique, the quick charge standard that each rapid nitriding needs terminal and charger to support this rapid nitriding corresponding simultaneously, if there is a side not support, just need to adopt the rechargeable standard of common 5V-500mA to charge to terminal, namely specific rapid nitriding needs to use specific charger.The charging method that disclosure embodiment provides, terminal can intelligent decision present terminal support quick charge standard, example, the application that terminal is installed can intelligent decision present terminal support quick charge standard, terminal is connected with charger by Blue-tooth communication method, by the charge mode of terminal determination terminal, the voltage and current that charger exports is set.When terminal cannot intelligent decision present terminal support quick charge standard time, user manually can arrange the voltage and current that charger exports, realize omnipotent quick charger, this charger carries out quick charge can to various types of terminal such as mobile phone or panel computer.This charging method makes the terminal (as smart machine) supporting different quick charge standard that same charger can be used to carry out quick charge, and user is without the need to carrying with multiple different charger.

The charging method that disclosure embodiment provides, can by terminal recognition and arrange charger export voltage and current, a kind of charger can support multiple quick charge standard, can realize the object of multiple terminal being carried out to quick charge by a kind of charger.This charging method is adopted to enormously simplify the identification process of quick charge.

It should be added that, the charging method that disclosure embodiment provides can also realize long-range charging and arrange, example, when charger charges to terminal P, by terminal Q, Long-distance Control is carried out to terminal P, user can pass through terminal Q, completes the voltage and the setting of maximum current that export charger, can also be monitored by terminal Q to the voltage and current of the current output of charger.Terminal Q and terminal P sets up wireless connections.

It should be noted that; the sequencing of the charging method step that disclosure embodiment provides can suitably adjust; step also according to circumstances can carry out corresponding increase and decrease; anyly be familiar with those skilled in the art in the technical scope that the disclosure discloses; the method changed can be expected easily; all should be encompassed within protection range of the present disclosure, therefore repeat no more.

Following is disclosure device embodiment, may be used for performing disclosure embodiment of the method.For the details do not disclosed in disclosure device embodiment, please refer to disclosure embodiment of the method.

Fig. 6-1 is the block diagram of a kind of charging device according to an exemplary embodiment, and this charging device can realize becoming the some or all of of the terminal 11 in implementation environment shown in Fig. 1 by software, hardware or both combinations.This charging device can comprise:

First sending module 801, be configured to send the first setting command according to the target voltage pre-set and target current to charger, first setting command comprises target voltage and target current, it is target voltage that first setting command is used to indicate the voltage that charger arranges output, and the maximum current of output is target current.

First receiver module 802, is configured to receive that charger sends is provided with signal, is provided with signal and is used to indicate charger and has completed the voltage of output and the setting of maximum current.

Second sending module 803, is configured to, according to being provided with signal, send charge command to charger, exports electric energy to trigger charger.

Second receiver module 804, being configured to receive charger is target voltage according to voltage, the electric energy that maximum current exports for target current.

In sum, the charging device that disclosure embodiment provides, terminal can send the first setting command according to the target voltage pre-set and target current to charger, the voltage that charger arranges charger output according to the first setting command is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the charge command that last charger sends according to terminal is target voltage according to voltage, maximum current is that target current exports electric energy to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, therefore, improve the versatility of charger.

Optionally, as in fig. 6-2, this charging device can also comprise:

First acquisition module 805, be configured to the target device parameter obtaining terminal, target device parameter comprises at least one in hardware parameter and identification information.

Enquiry module 806, be configured to inquire about in the first default corresponding relation whether record target device parameter, the first corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and charging parameter value comprises magnitude of voltage and current value.

Second acquisition module 807, when being configured to there is target device parameter in the first corresponding relation, obtains the target charging parameter value that target device parameter is corresponding in the first corresponding relation.

First determination module 808, is configured to the current value in target charging parameter value to be defined as target current.

Second determination module 809, is configured to the magnitude of voltage in target charging parameter value to be defined as target voltage.

Optionally, as shown in Fig. 6-3, this charging device can also comprise:

3rd receiver module 810, be configured to the indication information receiving charger transmission, indication information is used to indicate the voltage and current of the current output of charger.

First display module 811, is configured to show indication information.

As shown in Fig. 6-4, this charging device can also comprise:

3rd sending module 812, be configured to when first setting command send after preset time period in do not receive be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, as shown in Fig. 6-5, this charging device can also comprise:

Second display module 813, when being configured to there is not target device parameter in the first corresponding relation, display reminding information, information is used to indicate voltage and the maximum current that user arranges charger output.

4th receiver module 814, is configured to reception and arranges instruction, arranges instruction and comprises operating voltage and operating current.

Detection module 815, be configured to detect operating voltage and the whether satisfied default electrical energy conditions of operating current, default electrical energy conditions comprises format condition and the range of condition of voltage and current.

3rd determination module 816, is configured to, when operating voltage and operating current meet default electrical energy conditions, operating voltage is defined as target voltage, operating current is defined as target current.

Optionally, as shown in Fig. 6-6, this charging device also comprises:

4th sending module 817, be configured to when operating voltage and operating current do not meet default electrical energy conditions, or when first setting command send after preset time period in do not receive be provided with signal time, send the second setting command to charger, the second setting command is used to indicate charger and arranges the voltage of output and maximum current is default value.

Optionally, detection module 815, is configured to:

Optionally, the first corresponding relation is the corresponding relation of device parameter and rechargeable standard, the corresponding at least one group of charging parameter value of each rechargeable standard; Second acquisition module 807, is configured to:

Optionally, the default value of the voltage that charger exports is 5V, and the default value of the maximum current that charger exports is 500mA.

Optionally, the predetermined voltage range of charger support is 5V ~ 20V; The predetermined current scope of charger support is 0A ~ 4A.

Fig. 7-1 is the block diagram of a kind of charging device according to an exemplary embodiment, and this charging device can realize becoming the some or all of of the charger 12 in implementation environment shown in Fig. 1 by software, hardware or both combinations.This charging device can comprise:

First receiver module 901, be configured to the first setting command that receiving terminal sends, the first setting command comprises target voltage and target current, and target voltage and target current are that terminal pre-sets.

First arranges module 902, and the voltage being configured to arrange according to the first setting command charger output is target voltage.

Second arranges module 903, and the maximum current being configured to arrange according to the first setting command charger output is target current.

First sending module 904, is configured to, when completing the voltage and the arranging of maximum current that charger exports, send be provided with signal to terminal.

Second receiver module 905, is configured to the charge command that receiving terminal sends.

Output module 906, being configured to according to charge command according to voltage is target voltage, and maximum current is that target current exports electric energy to terminal.

In sum, the charging device that disclosure embodiment provides, the voltage that the first setting command that charger can send according to terminal arranges charger output is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the last charge command sent according to terminal is again target voltage according to voltage, maximum current is that target current exports electric energy to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, this improves the versatility of charger.

Optionally, as shown in Fig. 7-2, this charging device can also comprise:

Acquisition module 907, is configured to the voltage and current obtaining current output.

Second sending module 908, be configured to send indication information to terminal, indication information is used to indicate the voltage and current of current output.

Optionally, as shown in Fig. 7-3, this charging device can also comprise:

3rd receiver module 909, be configured to the second setting command that receiving terminal sends, second setting command is do not receive in the preset time period after terminal detects the first setting command transmission to be provided with signal, or operating voltage and operating current not to meet and send when presetting electrical energy conditions, operating voltage and operating current be terminal receive instruction is set after obtain.

3rd arranges module 910, be configured to according to the second setting command arrange charger export voltage and maximum current be default value.

Optionally, as shown in Fig. 7-4, this charging device can also comprise:

4th receiver module 911, be configured to receive external communication voltage, the voltage of external communication voltage is 220V.

Modular converter 912, being configured to external communication voltage transitions is direct voltage, and the voltage range of direct voltage is 5V ~ 20V, and the current range of direct voltage is 0A ~ 4A.

About the device in above-described embodiment, wherein the concrete mode of modules executable operations has been described in detail in about the embodiment of the method, will not elaborate explanation herein.

Fig. 8 is the block diagram of a kind of charging device according to an exemplary embodiment, and this charging device can be charger, and this charging device can comprise: charging adjustment module 601, controller 602, bluetooth module 603 and power output interface 604.

Charging adjustment module 601 is connected with controller 602, power output interface 604 respectively, and bluetooth module 603 is connected with controller 602.

Wherein, controller 602 for:

According to the first setting command by charging adjustment module 601, the voltage arranging charger output is target voltage, and charging adjustment module 601 can adjust voltage and the maximum current of charger output;

According to the first setting command by charging adjustment module 601, the maximum current arranging charger output is target current;

When completing the voltage and the arranging of maximum current that charger exports, by bluetooth module 603, sending to terminal and being provided with signal;

By the charge command that bluetooth module 603 receiving terminal sends;

Be target voltage according to charge command according to voltage, maximum current is target current, exports electric energy by power output interface 604 to terminal.

Optionally, controller 602 also for:

Obtain the voltage and current of current output;

Send indication information by bluetooth module 603 to terminal, this indication information is used to indicate the voltage and current of the current output of charger.

Optionally, controller 602 also for:

By the second setting command that bluetooth module 603 receiving terminal sends, second setting command is do not receive in the preset time period after terminal detects the first setting command transmission to be provided with signal, or operating voltage and operating current not to meet and send when presetting electrical energy conditions, operating voltage and operating current be terminal receive instruction is set after obtain;

According to the second setting command by charging adjustment module 601, the voltage and the maximum current that arrange charger output are default value.

Further, as shown in Figure 8, this charging device can also comprise: ac plug 605, ac plug 605 with charging adjustment module 601 be connected, controller 602 also for:

Receive external communication voltage by ac plug 605, the voltage of external communication voltage is 220V;

Be direct voltage by charging adjustment module 601 by external communication voltage transitions, the voltage range of this direct voltage is 5V ~ 20V, and the current range of direct voltage is 0A ~ 4A.

Ac plug 605 is connected with the AC power of 220V, for charger provides input power.

The alternating voltage of the 220V of input can be converted to all adjustable direct voltage of voltage and current by charging adjustment module 601, and the voltage range of the direct voltage that charging adjustment module 601 exports is 5V ~ 20V, and current range is 0A ~ 4A.This voltage range and current range can meet the charge requirement of various terminal.

Controller 602 is processor module, and controller 602 is connected with terminal by bluetooth module 603, and example, controller 602 can be connected with the application that terminal is installed by bluetooth module 603, and this is applied as application corresponding to charger.The first setting command that controller 602 reception application sends, arranges voltage and the maximum current of charger output by charging adjustment module 601 according to the first setting command.Controller 602 can also read the voltage and current of the current output of charging adjustment module 601, and sent the voltage and current of the current output of charging adjustment module 601 to application by bluetooth module 603, so that the voltage and current of application to the current output of charging adjustment module 601 shows.

Example, bluetooth module 603 can adopt bluetooth 4.0 module, and bluetooth module 603 is connected with controller 602 by serial ports, for completing the information transmission of controller 602 and terminal.Charging device integrated with Bluetooth module 603 and controller 602, make user manually can arrange the voltage and current of charger output.

Power output interface 604 is USB output interface, for exporting electric energy to terminal.

Fig. 9 is the block diagram of a kind of charging device 1000 according to an exemplary embodiment.Such as, device 1000 can be mobile phone, computer, digital broadcast terminal, messaging devices, game console, flat-panel devices, Medical Devices, body-building equipment, personal digital assistant etc.

With reference to Fig. 9, device 1000 can comprise following one or more assembly: processing components 1002, memory 1004, power supply module 1006, multimedia groupware 1008, audio-frequency assembly 1010, the interface 1012 of I/O (I/O), sensor cluster 1014, and communications component 1016.

The integrated operation of the usual control device 1000 of processing components 1002, such as with display, call, data communication, camera operation and record operate the operation be associated.Processing components 1002 can comprise one or more processor 1020 to perform instruction, to complete all or part of step of above-mentioned method.In addition, processing components 1002 can comprise one or more module, and what be convenient between processing components 1002 and other assemblies is mutual.Such as, processing components 1002 can comprise multi-media module, mutual with what facilitate between multimedia groupware 1008 and processing components 1002.

Memory 1004 is configured to store various types of data to be supported in the operation of device 1000.The example of these data comprises for any application program of operation on device 1000 or the instruction of method, contact data, telephone book data, message, picture, video etc.Memory 1004 can be realized by the volatibility of any type or non-volatile memory device or their combination, as static RAM (SRAM), Electrically Erasable Read Only Memory (EEPROM), Erasable Programmable Read Only Memory EPROM (EPROM), programmable read only memory (PROM), read-only memory (ROM), magnetic memory, flash memory, disk or CD.

The various assemblies that power supply module 1006 is device 1000 provide electric power.Power supply module 1006 can comprise power-supply management system, one or more power supply, and other and the assembly generating, manage and distribute electric power for device 1000 and be associated.

Multimedia groupware 1008 is included in the screen providing an output interface between described device 1000 and user.In certain embodiments, screen can comprise liquid crystal display (LCD) and touch panel (TP).If screen comprises touch panel, screen may be implemented as touch-screen, to receive the input signal from user.Touch panel comprises one or more touch sensor with the gesture on sensing touch, slip and touch panel.Described touch sensor can the border of not only sensing touch or sliding action, but also detects the duration relevant to described touch or slide and pressure.In certain embodiments, multimedia groupware 1008 comprises a front-facing camera and/or post-positioned pick-up head.When device 1000 is in operator scheme, during as screening-mode or video mode, front-facing camera and/or post-positioned pick-up head can receive outside multi-medium data.Each front-facing camera and post-positioned pick-up head can be fixing optical lens systems or have focal length and optical zoom ability.

Audio-frequency assembly 1010 is configured to export and/or input audio signal.Such as, audio-frequency assembly 1010 comprises a microphone (MIC), and when device 1000 is in operator scheme, during as call model, logging mode and speech recognition mode, microphone is configured to receive external audio signal.The audio signal received can be stored in memory 1004 further or be sent via communications component 1016.In certain embodiments, audio-frequency assembly 1010 also comprises a loud speaker, for output audio signal.

I/O interface 1012 is for providing interface between processing components 1002 and peripheral interface module, and above-mentioned peripheral interface module can be keyboard, some striking wheel, button etc.These buttons can include but not limited to: home button, volume button, start button and locking press button.

Sensor cluster 1014 comprises one or more transducer, for providing the state estimation of various aspects for device 1000.Such as, sensor cluster 1014 can detect the opening/closing state of device 1000, the relative positioning of assembly, such as described assembly is display and the keypad of device 1000, the position of all right checkout gear 1000 of sensor cluster 1014 or device 1000 assemblies changes, the presence or absence that user contacts with device 1000, the variations in temperature of device 1000 orientation or acceleration/deceleration and device 1000.Sensor cluster 1014 can comprise proximity transducer, be configured to without any physical contact time detect near the existence of object.Sensor cluster 1014 can also comprise optical sensor, as CMOS or ccd image sensor, for using in imaging applications.In certain embodiments, this sensor cluster 1014 can also comprise acceleration transducer, gyro sensor, Magnetic Sensor, pressure sensor or temperature sensor.

Communications component 1016 is configured to the communication being convenient to wired or wireless mode between device 1000 and other equipment.Device 1000 can access the wireless network based on communication standard, as WiFi, 2G or 3G, or their combination.In one exemplary embodiment, communications component 1016 receives from the broadcast singal of external broadcasting management system or broadcast related information via broadcast channel.In one exemplary embodiment, described communications component 1016 also comprises near-field communication (NFC) module, to promote junction service.Such as, can based on radio-frequency (RF) identification (RFID) technology in NFC module, Infrared Data Association (IrDA) technology, ultra broadband (UWB) technology, bluetooth (BT) technology and other technologies realize.

In the exemplary embodiment, device 1000 can be realized, for performing said method by one or more application specific integrated circuit (ASIC), digital signal processor (DSP), digital signal processing appts (DSPD), programmable logic device (PLD), field programmable gate array (FPGA), controller, microcontroller, microprocessor or other electronic components.

In the exemplary embodiment, additionally provide a kind of non-transitory computer-readable recording medium comprising instruction, such as, comprise the memory 1004 of instruction, above-mentioned instruction can perform said method by the processor 1020 of device 1000.Such as, described non-transitory computer-readable recording medium can be ROM, random access memory (RAM), CD-ROM, tape, floppy disk and optical data storage devices etc.

A kind of non-transitory computer-readable recording medium, when the instruction in described storage medium is performed by the processor of device 1000, make device 1000 can perform a kind of charging method, described method comprises:

Receive the electric energy that charger exports.

Optionally, the method can also comprise:

Current value in target charging parameter value is defined as target current;

Optionally, the method can also comprise:

Display indication information.

Optionally, the method can also comprise:

Optionally, the predetermined voltage range of charger support is 5V ~ 20V;

The predetermined current scope of charger support is 0A ~ 4A.

In sum, the charging device that disclosure embodiment provides, terminal can send the first setting command according to the target voltage pre-set and target current to charger, the voltage that charger arranges charger output according to the first setting command is target voltage, the maximum current arranging charger output is target current, and be provided with signal to terminal transmission, the charge command that last charger sends according to terminal exports electric energy to terminal, complete charging process, compared to correlation technique, a kind of charger can support multiple quick charge standard, therefore, improve the versatility of charger.

Disclosure embodiment provides a kind of charging system, and this charging system can comprise: terminal and charger;

Wherein, terminal comprises the arbitrary shown charging device of Fig. 6-1 to Fig. 6-6, and charger comprises the arbitrary shown charging device of Fig. 7-1 to Fig. 7-4;

Or terminal comprises the charging device shown in Fig. 9, charger comprises the charging device shown in Fig. 8.

Those skilled in the art, at consideration specification and after putting into practice invention disclosed herein, will easily expect other embodiment of the present disclosure.The application is intended to contain any modification of the present disclosure, purposes or adaptations, and these modification, purposes or adaptations are followed general principle of the present disclosure and comprised the undocumented common practise in the art of the disclosure or conventional techniques means.Specification and embodiment are only regarded as exemplary, and true scope of the present disclosure and spirit are pointed out by claim.

Should be understood that, the disclosure is not limited to precision architecture described above and illustrated in the accompanying drawings, and can carry out various amendment and change not departing from its scope.The scope of the present disclosure is only limited by appended claim.

Claims

1. a charging method, is characterized in that, described method comprises:

The first setting command is sent to charger according to the target voltage pre-set and target current, described first setting command comprises described target voltage and described target current, it is described target voltage that described first setting command is used to indicate the voltage that described charger arranges output, and the maximum current of output is described target current;

What receive that described charger sends is provided with signal, described in be provided with signal and be used to indicate described charger and completed the voltage of output and the setting of maximum current;

Be provided with signal according to described, send charge command to described charger, export electric energy to trigger described charger;

Receiving described charger according to voltage is described target voltage, the electric energy that maximum current exports for described target current.

2. method according to claim 1, is characterized in that, described method also comprises:

Obtain the target device parameter of terminal, described target device parameter comprises at least one in hardware parameter and identification information;

Whether record described target device parameter in the first corresponding relation that inquiry is preset, described first corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and described charging parameter value comprises magnitude of voltage and current value;

When there is described target device parameter in described first corresponding relation, in described first corresponding relation, obtain target charging parameter value corresponding to described target device parameter;

Current value in described target charging parameter value is defined as described target current;

Magnitude of voltage in described target charging parameter value is defined as described target voltage.

3. method according to claim 1, is characterized in that, described method also comprises:

Receive the indication information that described charger sends, described indication information is used to indicate the voltage and current of the current output of described charger;

Show described indication information.

4. method according to claim 1, is characterized in that, described method also comprises:

When being provided with signal described in not receiving in the preset time period after described first setting command sends, send the second setting command to described charger, described second setting command is used to indicate described charger and arranges the voltage of output and maximum current is default value.

5. method according to claim 2, is characterized in that, described method also comprises:

When there is not described target device parameter in described first corresponding relation, display reminding information, described information is used to indicate voltage and the maximum current that user arranges the output of described charger;

Reception arranges instruction, describedly arranges instruction and comprises operating voltage and operating current;

Detect described operating voltage and the whether satisfied default electrical energy conditions of described operating current, described default electrical energy conditions comprises format condition and the range of condition of voltage and current;

When described operating voltage and described operating current meet described default electrical energy conditions, described operating voltage is defined as described target voltage, described operating current is defined as described target current.

6. method according to claim 5, is characterized in that, described method also comprises:

When described operating voltage and described operating current do not meet described default electrical energy conditions, or when being provided with signal described in not receiving in the preset time period after described first setting command sends, send the second setting command to described charger, described second setting command is used to indicate described charger and arranges the voltage of output and maximum current is default value.

7. method according to claim 5, is characterized in that, whether the described operating voltage of described detection and described operating current meet is preset electrical energy conditions, comprising:

Whether be legal voltage format, and belong to the predetermined voltage range of described charger support if detecting described operating voltage;

When described operating voltage is described legal voltage format, and whether when belonging to the predetermined voltage range of described charger support, detecting described operating current is legal current format, and belongs to the predetermined current scope of described charger support;

When described operating current is described legal current format, and when belonging to the predetermined current scope of described charger support, determine that described operating voltage and described operating current meet described default electrical energy conditions.

8. method according to claim 2, is characterized in that, described first corresponding relation is the corresponding relation of device parameter and rechargeable standard, the corresponding at least one group of charging parameter value of each described rechargeable standard;

Describedly in described first corresponding relation, obtain target charging parameter value corresponding to described target device parameter, comprising:

Target rechargeable standard corresponding to described target device parameter is obtained in described first corresponding relation;

At least one group of charging parameter value that described target rechargeable standard is corresponding is determined according to described target rechargeable standard;

From described at least one group of charging parameter value, select a charging parameter value as described target charging parameter value.

9. a charging method, is characterized in that, described method comprises:

The first setting command that receiving terminal sends, described first setting command comprises target voltage and target current, and described target voltage and described target current are that described terminal pre-sets;

The voltage arranging charger output according to described first setting command is described target voltage;

The maximum current arranging the output of described charger according to described first setting command is described target current;

When completing the voltage and the arranging of maximum current that described charger exports, sending to described terminal and being provided with signal;

Receive the charge command that described terminal sends;

Be described target voltage according to described charge command according to voltage, maximum current is that described target current exports electric energy to described terminal.

10. method according to claim 9, is characterized in that, described method also comprises:

Obtain the voltage and current of current output;

Send indication information to described terminal, described indication information is used to indicate the voltage and current of described current output.

11. methods according to claim 9, is characterized in that, described method also comprises:

Receive the second setting command that described terminal sends, described second setting command for described terminal detects described first setting command send after preset time period in do not receive described in be provided with signal, or described operating voltage and described operating current not to meet and send when presetting electrical energy conditions, described operating voltage and described operating current be described terminal receive instruction is set after obtain;

According to described second setting command arrange described charger export voltage and maximum current be default value.

12. 1 kinds of charging devices, is characterized in that, described charging device comprises:

First sending module, be configured to send the first setting command according to the target voltage pre-set and target current to charger, described first setting command comprises described target voltage and described target current, it is described target voltage that described first setting command is used to indicate the voltage that described charger arranges output, and the maximum current of output is described target current;

First receiver module, is configured to receive that described charger sends is provided with signal, described in be provided with signal and be used to indicate described charger and completed the voltage of output and the setting of maximum current;

Second sending module, is configured to be provided with signal described in basis, sends charge command to described charger, exports electric energy to trigger described charger;

Second receiver module, being configured to receive described charger according to voltage is described target voltage, the electric energy that maximum current exports for described target current.

13. charging devices according to claim 12, is characterized in that, described charging device also comprises:

First acquisition module, be configured to the target device parameter obtaining terminal, described target device parameter comprises at least one in hardware parameter and identification information;

Enquiry module, be configured to inquire about in the first default corresponding relation whether record described target device parameter, described first corresponding relation is used for the corresponding relation of recording equipment parameter and charging parameter value, and described charging parameter value comprises magnitude of voltage and current value;

Second acquisition module, when being configured to there is described target device parameter in described first corresponding relation, obtains target charging parameter value corresponding to described target device parameter in described first corresponding relation;

First determination module, is configured to the current value in described target charging parameter value to be defined as described target current;

Second determination module, is configured to the magnitude of voltage in described target charging parameter value to be defined as described target voltage.

14. charging devices according to claim 12, is characterized in that, described charging device also comprises:

3rd receiver module, be configured to the indication information receiving the transmission of described charger, described indication information is used to indicate the voltage and current of the current output of described charger;

First display module, is configured to show described indication information.

15. charging devices according to claim 12, is characterized in that, described charging device also comprises:

3rd sending module, be configured to when being provided with signal described in not receiving in the preset time period after described first setting command sends, send the second setting command to described charger, described second setting command is used to indicate described charger and arranges the voltage of output and maximum current is default value.

16. charging devices according to claim 13, is characterized in that, described charging device also comprises:

Second display module, when being configured to there is not described target device parameter in described first corresponding relation, display reminding information, described information is used to indicate voltage and the maximum current that user arranges the output of described charger;

4th receiver module, is configured to reception and arranges instruction, describedly arranges instruction and comprises operating voltage and operating current;

Detection module, be configured to detect described operating voltage and the whether satisfied default electrical energy conditions of described operating current, described default electrical energy conditions comprises format condition and the range of condition of voltage and current;

3rd determination module, is configured to, when described operating voltage and described operating current meet described default electrical energy conditions, described operating voltage is defined as described target voltage, described operating current is defined as described target current.

17. charging devices according to claim 16, is characterized in that, described charging device also comprises:

4th sending module, be configured to when described operating voltage and described operating current do not meet described default electrical energy conditions, or when being provided with signal described in not receiving in the preset time period after described first setting command sends, send the second setting command to described charger, described second setting command is used to indicate described charger and arranges the voltage of output and maximum current is default value.

18. charging devices according to claim 16, is characterized in that, described detection module, is configured to:

19. charging devices according to claim 13, is characterized in that, described first corresponding relation is the corresponding relation of device parameter and rechargeable standard, the corresponding at least one group of charging parameter value of each described rechargeable standard;

Described second acquisition module, is configured to:

20. 1 kinds of charging devices, is characterized in that, described charging device comprises:

First receiver module, be configured to the first setting command that receiving terminal sends, described first setting command comprises target voltage and target current, and described target voltage and described target current are that described terminal pre-sets;

First arranges module, and the voltage being configured to arrange according to described first setting command charger output is described target voltage;

Second arranges module, and the maximum current being configured to arrange according to described first setting command the output of described charger is described target current;

First sending module, is configured to, when completing the voltage and the arranging of maximum current that described charger exports, send be provided with signal to described terminal;

Second receiver module, is configured to the charge command receiving the transmission of described terminal;

Output module, being configured to according to described charge command according to voltage is described target voltage, and maximum current is that described target current exports electric energy to described terminal.

21. charging devices according to claim 20, is characterized in that, described charging device also comprises:

Second sending module, be configured to send indication information to described terminal, described indication information is used to indicate the voltage and current of described current output.

22. charging devices according to claim 20, is characterized in that, described charging device also comprises:

3rd receiver module, be configured to the second setting command receiving the transmission of described terminal, described second setting command for described terminal detects described first setting command send after preset time period in do not receive described in be provided with signal, or described operating voltage and described operating current not to meet and send when presetting electrical energy conditions, described operating voltage and described operating current be described terminal receive instruction is set after obtain;

3rd arranges module, be configured to according to described second setting command arrange described charger export voltage and maximum current be default value.

23. 1 kinds of charging devices, is characterized in that, comprising:

Processor;

For storing the memory of the executable instruction of described processor;

Wherein, described processor is configured to:

24. 1 kinds of charging devices, is characterized in that, described charging device comprises: charging adjustment module, controller, bluetooth module and power output interface,

Described charging adjustment module is connected with described controller, described power output interface respectively, and described bluetooth module is connected with described controller;

Described controller is used for:

By the first setting command that described bluetooth module receiving terminal sends, described first setting command comprises target voltage and target current, and described target voltage and described target current are that described terminal pre-sets;

According to described first setting command by described charging adjustment module, the voltage arranging charger output is described target voltage;

According to described first setting command by described charging adjustment module, the maximum current arranging the output of described charger is described target current;

When completing the voltage and the arranging of maximum current that described charger exports, by described bluetooth module, sending to described terminal and being provided with signal;

The charge command of described terminal transmission is received by described bluetooth module;

Be described target voltage according to described charge command according to voltage, maximum current is described target current, exports electric energy by described power output interface to described terminal.

25. charging devices according to claim 24, is characterized in that, described controller also for:

Obtain the voltage and current of current output;

Send indication information by described bluetooth module to described terminal, described indication information is used to indicate the voltage and current of described current output.

26. charging devices according to claim 24, is characterized in that, described controller also for:

The second setting command of described terminal transmission is received by described bluetooth module, described second setting command for described terminal detects described first setting command send after preset time period in do not receive described in be provided with signal, or described operating voltage and described operating current not to meet and send when presetting electrical energy conditions, described operating voltage and described operating current be described terminal receive instruction is set after obtain;

According to described second setting command by described charging adjustment module, the voltage and the maximum current that arrange the output of described charger are default value.

27. 1 kinds of charging systems, is characterized in that, comprising: terminal and charger;

Described terminal comprises the arbitrary described charging device of claim 12 to 19, and described charger comprises the arbitrary described charging device of claim 20 to 22;

Or,

Described terminal comprises charging device according to claim 23, and described charger comprises the arbitrary described charging device of claim 24 to 26.