CN116667496A - Self-determination method and device for charging quantity and charging voltage of data line and data line - Google Patents

Abstract

The application relates to a self-determining method, a device and a data line for data line charging quantity and charging voltage, which can utilize a merchant management background to configure a corresponding ADC charging sampling program for an accessed charging terminal, utilize the ADC charging sampling program to provide charging information sampling and calculation for a data line selected by a user according to a recommended charging scheme, and the background can calculate the charging voltage of the data line in real time according to the sampling information and the front and rear information values of electric quantity reported by the terminal, and calculate the front and rear electric quantity to obtain the charging electric quantity of the terminal user, and charge according to the terminal charging quantity when the charging is finished, so that the charge of the charging data line selected currently can be calculated, the function of charging the charging time of the terminal mainly according to the charging quantity is realized, and the charging of the user is carried out according to the charging time instead of charging according to the charging time, so that the charging deviation caused by the deviation of the charging time can be avoided.

Description

Self-determination method and device for charging quantity and charging voltage of data line and data line

Technical Field

The disclosure relates to the technical field of electronic equipment, and in particular relates to a self-determination method and device for a charging amount and a charging voltage of a data line and the data line.

Background

The charged amount means electric energy charged in a battery or the like, and the charged amount is related to the battery capacity.

The data line charges, pulls out the data line of each rated charge power and inserts on terminal equipment and can start the charging, and current data line is for example the charge data line of each smart mobile phone, and its power rating is just bigger, for example 67W's certain brand cell-phone merchant can be in less than an hour can be full of cell-phone electric quantity, and this compares the charge data line of 40 more W originally, and charging efficiency has improved approximately half.

After the sharing charging technology appears in the market, the mobile charging convenience is brought to the vast outdoor users, and the users can charge by using the charging station provided by the platform. The charging rate of the user is calculated mainly by the charging time in the conventional charging station, and the charging time of different charging powers is different, which means that different electric rates are corresponding. In the process, the platform can only manage the charging borrowing time of the user on the background, the user can only know how long the user uses the charging borrowing time, but the determination and calculation of the charging quantity and the charging voltage of the data line are less involved, and the electric quantity and the charging voltage of the user charged by the data line cannot be intuitively known.

The background can calculate the charge cost according to the login time and the exit time of the user, but the actual charge value and the charge voltage of the charge amount of the data line are different from the actual charge amount calculation, because sometimes the terminal signal is poor, the time is still charged, or the terminal is disconnected from the network, power is lost, the charging cannot be normally performed, and the like, and the charging deviation is caused by the time record of the terminal. Therefore, the data line charging management is performed only according to the charging time of the user, the commercial calculation is deviated, and the user does not know the charging voltage and the charging amount of the current data line.

Disclosure of Invention

In order to solve the above problems, the present application provides a method, a device and a data line for self-determining the charge amount and the charge voltage of the data line.

In one aspect of the present application, a method for self-determining a charging amount and a charging voltage of a data line is provided, including the following steps:

editing an ADC charging sampling program and configuring the ADC charging sampling program in a management background;

the terminal logs in the management background, and synchronously configures the ADC charging sampling program for the terminal through the management background;

after configuration is completed, a charging data line is accessed, and the terminal starts charging;

acquiring charging data of a charging data line by using the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and the management background calculates the current charging voltage and the current charging amount in real time according to the reported charging data, and synchronously feeds back the calculation result to the terminal in real time.

As an optional embodiment of the present application, optionally, editing the ADC charging sampling procedure and configuring in the management background, includes:

setting a charge amount calculation algorithm and a sampling circuit, and constructing and editing a corresponding ADC charging sampling program;

uploading the ADC charging sampling program through a back-end port and installing the ADC charging sampling program in an application database of the management background;

and configuring download ports with different attribute values for the application database, and configuring corresponding terminal mapping relations for the download ports.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, including:

initiating an access request to the management background of the data line charging background through a terminal, and requesting to establish access connection with the management background;

the management background receives the request and sends a verification request of battery information to the terminal, and waits for the response of the terminal;

after the terminal responds to the verification request of the management background, battery information of the terminal is sent to the management background;

the management background records the battery information of the terminal and binds the battery information under the device ID of the terminal.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, and further includes:

the management background analyzes the battery information of the terminal to obtain the battery capacity, rated charging voltage and current electric quantity information of the terminal;

according to the battery capacity and rated charging voltage, calculating charging schemes of charging data lines with different charging powers, recommending the charging schemes to users through the terminal, and waiting for the users to select the charging schemes;

and recording the current electric quantity value according to the current electric quantity information and binding the current electric quantity value under the equipment ID of the terminal.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, and further includes:

according to the attribute information of the terminal, mapping and connecting a corresponding downloading port for the current terminal from the management background;

downloading and configuring the ADC charging sampling program in the application database of the management background on the current terminal through the downloading port;

and after the user selects the charging scheme, the charging data line is accessed, and the ADC charging sampling program starts to be started and prepares for charging sampling.

As an optional implementation manner of the present application, optionally, the ADC charging sampling procedure on the terminal is used to collect charging data of a charging data line, and the terminal synchronously reports current charging data and electric quantity data, including:

setting a sampling frequency, and sampling according to the sampling frequency;

acquiring charging data of a charging data line through the ADC charging sampling program, acquiring a charging current signal value, and reporting the charging current signal value to the management background through the terminal;

and the terminal synchronously reports the current electric quantity data to the management background.

As an optional embodiment of the present application, optionally, the management background calculates, in real time, a current charging voltage and a current charging amount according to the reported charging data, and synchronously feeds back a calculation result to the terminal in real time, including:

the management background receives a charging current signal value and current electric quantity data reported by the terminal;

according to the charging current signal value, calculating the charging voltage of a charging data line for charging the current terminal through the battery capacity and rated charging voltage of the current terminal, and recording and binding the current charging voltage under the equipment ID of the current terminal;

according to the current electric quantity data and the previously recorded electric quantity values, calculating the current charging electric quantity value, and recording and binding the current charging electric quantity value under the device ID of the current terminal;

and sending the current charging voltage and the current charging electric quantity value to the terminal through the management background, and recommending the current charging voltage and the current charging electric quantity value to a user through the terminal.

In another aspect of the present application, an apparatus for implementing a method for self-determining a charge amount and a charge voltage of a data line is provided, including:

the sampling program configuration module is used for editing an ADC charging sampling program and is configured in a management background;

the program downloading module is used for logging in the management background by the terminal and synchronously configuring the ADC charging sampling program for the terminal through the management background; after configuration is completed, a charging data line is accessed, and the terminal starts charging;

the terminal sampling module is used for acquiring charging data of a charging data line by utilizing the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and the feedback module is used for calculating the current charging voltage and the current charging amount in real time according to the reported charging data by the management background and synchronously feeding back the calculation result to the terminal in real time.

In another aspect of the present application, a data line is provided, where the data line adopts a self-determining method of a charging amount and a charging voltage of the data line, and a self-determining scheme of the charging amount and the charging voltage is provided for a user.

In another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

the processor is configured to implement the self-determination method of the data line charge amount and the charge voltage when executing the executable instructions.

The application has the technical effects that:

according to the application, an ADC charging sampling program is edited and is configured in a management background; the terminal logs in the management background, and synchronously configures the ADC charging sampling program for the terminal through the management background; after configuration is completed, a charging data line is accessed, and the terminal starts charging; acquiring charging data of a charging data line by using the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal; and the management background calculates the current charging voltage and the current charging amount in real time according to the reported charging data, and synchronously feeds back the calculation result to the terminal in real time. The charging system comprises a charging terminal, a charging information sampling program, a charging voltage real-time calculation module and a charging information processing module, wherein the charging terminal is connected with a charging information sampling program, the charging information sampling program is used for providing charging information sampling and calculation for a data line selected by a user according to a recommended charging scheme, the charging voltage real-time calculation of the data line can be carried out according to sampling information and a front-back information value of electric quantity reported by the terminal by the background, the charging electric quantity of the terminal user can be obtained through the calculation of the front-back electric quantity, the charging amount of the terminal user can be calculated according to the charging amount of the terminal when the charging is finished, the charging function of charging the charging time of the terminal according to the charging amount is realized, and the charging is carried out on the charging amount really of the user according to the charging time.

Other features and aspects of the present disclosure will become apparent from the following detailed description of exemplary embodiments, which proceeds with reference to the accompanying drawings.

Drawings

The accompanying drawings, which are incorporated in and constitute a part of this specification, illustrate exemplary embodiments, features and aspects of the present disclosure and together with the description, serve to explain the principles of the disclosure.

FIG. 1 is a schematic diagram showing the implementation flow of a method for self-determining the charge amount and the charge voltage of a data line according to the present application;

FIG. 2 is a schematic diagram showing an application of the terminal according to the present application for downloading programs from the management background;

FIG. 3 illustrates an application diagram for access authentication and link establishment for the present application;

FIG. 4 is a schematic diagram showing a self-determining mechanism of the charge amount and the charge voltage according to the present application;

FIG. 5 shows a schematic diagram of an application system of the device of the present application;

fig. 6 shows a schematic diagram of an application system of the electronic device of the present application.

Detailed Description

Various exemplary embodiments, features and aspects of the disclosure will be described in detail below with reference to the drawings. In the drawings, like reference numbers indicate identical or functionally similar elements. Although various aspects of the embodiments are illustrated in the accompanying drawings, the drawings are not necessarily drawn to scale unless specifically indicated.

The word "exemplary" is used herein to mean "serving as an example, embodiment, or illustration. Any embodiment described herein as "exemplary" is not necessarily to be construed as preferred or advantageous over other embodiments.

In addition, numerous specific details are set forth in the following detailed description in order to provide a better understanding of the present disclosure. It will be understood by those skilled in the art that the present disclosure may be practiced without some of these specific details. In some instances, methods, means, elements, and circuits well known to those skilled in the art have not been described in detail in order not to obscure the present disclosure.

Example 1

According to the scheme, the merchant management background can be utilized to configure a corresponding ADC charging sampling program for the accessed charging terminal, the ADC charging sampling program is utilized to provide charging information sampling and calculation for the data line selected by a user according to the recommended charging scheme, the background can calculate the charging voltage of the data line in real time according to the sampling information and the front and back information values of the electric quantity reported by the terminal, the charging electric quantity of the terminal user is obtained through the calculation of the front and back electric quantity, the charging quantity of the terminal user is charged according to the terminal charging quantity when the charging is finished, the charging quantity of the currently selected charging data line can be calculated, the charging function of charging the charging time of the terminal mainly according to the charging quantity is realized, and charging is carried out relative to the charging according to the service time.

As shown in fig. 1, in one aspect of the present application, a method for self-determining a charging amount and a charging voltage of a data line is provided, which includes the following steps:

s1, editing an ADC charging sampling program and configuring the ADC charging sampling program in a management background;

s2, logging in the management background by a terminal, and synchronously configuring the ADC charging sampling program for the terminal through the management background;

s3, after configuration, accessing a charging data line, and starting charging by the terminal;

s4, acquiring charging data of a charging data line by using the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and S5, the management background calculates the current charging voltage and the current charging amount in real time according to the reported charging data, and synchronously feeds back the calculation result to the terminal in real time.

The merchant providing the charging data line can manage the added user terminal through the background management platform, and when the user terminal is accessed to the platform, the ID of the currently accessed terminal equipment can be recorded on the platform. And the subsequent report or downlink information of the sampling information of the terminal, the corresponding data line charging information and the terminal electric quantity is associated and interacted according to the equipment ID of the terminal.

In this embodiment, the background management platform related to the data line charging management can refer to the existing shared charging management platform, so that a detailed description is omitted in this embodiment.

According to the scheme, the ADC charging sampling program is designed and deployed on the management background, and after logging in the management background (management server) through a webpage, an APP and the like, a request can be triggered, and the corresponding ADC charging sampling program is downloaded to the added terminal through the management background. After the terminal is provided with the ADC charging sampling program, when charging, the charging data of the data line can be sampled through the ADC charging sampling program and reported to the management background in real time. And finally, analyzing and calculating the charging data of the data line through the management background to obtain the charging voltage signal value of the current data line and feeding back the charging voltage signal value to the terminal in real time. The terminal synchronously reports the electric quantity value before charging to the background in real time, after the subsequent charging, the latest current electric quantity value is calculated according to the information such as the charging voltage, and the charging quantity of the user terminal for charging by using the datase:Sub>A line is obtained through calculation of the electric quantity difference value before and after the charging, so that the charging can be carried out without sampling the time of the terminal equipment to join the management background, but the charging can be carried out according to the calculation of the electric quantity difference value of the charging voltage when the terminal equipment is sampled, the charging quantity, such as the terminal electric quantity of the terminal which is not charged by using the datase:Sub>A line is A, the terminal electric quantity under ase:Sub>A certain sampling frequency is B, the charging quantity is C=B-A, and the charging quantity C is sent to the APP of the terminal in real time, so that the user can intuitively know the charging quantity of the user instead of the quantity displayed by the electric quantity of the terminal or the charging time. The user can know how much electric quantity is charged by himself in real time, for example, the user can check that 5AH is charged by himself at a certain moment.

As an optional embodiment of the present application, optionally, editing the ADC charging sampling procedure and configuring in the management background, includes:

setting a charge amount calculation algorithm and a sampling circuit, and constructing and editing a corresponding ADC charging sampling program;

uploading the ADC charging sampling program through a back-end port and installing the ADC charging sampling program in an application database of the management background;

and configuring download ports with different attribute values for the application database, and configuring corresponding terminal mapping relations for the download ports.

As shown in fig. 2, the ADC charging sampling program is configured to collect charging data when a data line is charged, and mainly collect a charging current value, where the ADC charging sampling program has a corresponding charging amount calculation algorithm and a sampling circuit, the charging amount calculation algorithm and the sampling circuit can refer to a program and a calculation step of an existing ADC sampling circuit, and the electric quantity calculation method refers to an existing charging amount calculation method. The embodiment is not limited to the specific algorithm, and the corresponding program editing, such as editing language, application deployment environment, etc., is not considered in the present solution.

After the ADC charging sampling program is edited and verified, the ADC charging sampling program is deployed and installed in an application database of the management background through a back-end pipe orifice of the management background, the ADC charging sampling program is online and deployed in the application database of the management background, and when a terminal user joins the background, the terminal user can request downloading or the management background actively activates downloading, and the ADC charging sampling program is downloaded to a joined terminal through a downloading port.

The management background is provided with a lower smashing port, and the existing external butt joint port can be used for data interaction and transmission.

Configuring a corresponding terminal mapping relation for the downloading port, namely when the current docking port is used for data downloading, mapping and matching the added terminal, judging whether the current terminal is matched with a transmission protocol of the downloading port of a management background or not, setting a mapping range for the current terminal, such as an attribute range value of the access terminal which can be accommodated, carrying out attribute value mapping and identification on the adding device according to the configured attribute range value, and judging whether the attribute value of the device is in the mapping range of the downloading port, if so, permitting the adding, otherwise, not matching. The terminal mapping is performed by a background manager to set a specific mapping range value.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, including:

initiating an access request to the management background of the data line charging background through a terminal, and requesting to establish access connection with the management background;

the management background receives the request and sends a verification request of battery information to the terminal, and waits for the response of the terminal;

after the terminal responds to the verification request of the management background, battery information of the terminal is sent to the management background;

the management background records the battery information of the terminal and binds the battery information under the device ID of the terminal.

When the terminal needs to be charged, an access request is initiated to the management background through an APP, a webpage and the like, and access connection is established first, so that interaction between the information and the data can be realized.

As shown in fig. 3, the management background may verify battery information sent from the terminal, and after the terminal responds. The current battery information (the power is recorded as 0 power when the power is turned off) can be returned to the management background, the management background records the battery information of the current terminal and stores the battery information in a background DB database, and the database stores data according to the device ID of the current terminal.

The establishment of the access and data communication between the terminal and the management background may be combined with the description of the establishment of the link in connection with the existing access request.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, and further includes:

the management background analyzes the battery information of the terminal to obtain the battery capacity, rated charging voltage and current electric quantity information of the terminal;

according to the battery capacity and rated charging voltage, calculating charging schemes of charging data lines with different charging powers, recommending the charging schemes to users through the terminal, and waiting for the users to select the charging schemes;

and recording the current electric quantity value according to the current electric quantity information and binding the current electric quantity value under the equipment ID of the terminal.

And the management background calculates and obtains the battery capacity, rated charging voltage and current electric quantity information of the terminal according to the reported battery information of the terminal in the initial state, and after the terminal is charged by utilizing the data line, the real-time charging electric quantity can be calculated according to the sampled charging current and the information such as the battery capacity, and the difference value calculation is carried out with the initial electric quantity value, so that the corresponding charging quantity can be calculated and obtained. And the calculation result is fed back to the terminal, so that the user can know the charge quantity of the user rather than the charge time. The charge amount may be displayed through the battery management system of the terminal, and the user views the charge amount through the terminal APP instead of the charge time. The charge amount is calculated based on the ADC charge sampling program sampling information.

The background can recommend charging data lines with different charging powers to the user according to the battery capacity and rated charging voltage of the terminal, so that the user can select the charging data lines. After the user selects, the terminal is charged, and the charging data of the charging data line are collected and reported by using a program. In this embodiment, the charging power of the data lines with different powers configured by the merchant is marked by the merchant in the background, and the background matches the charging data line with the corresponding charging power according to the battery capacity, the rated charging voltage and the like of the terminal, and specifically, the merchant sets calculation of the recommended scheme.

The current terminal power value, such as 2AH, will be synchronously recorded under the terminal device ID in the corresponding background DB of the management background. And the subsequent electric quantity value calculated in real time and the difference value calculation result are synchronously recorded and stored under the ID of the terminal equipment.

As an optional implementation manner of the present application, optionally, a terminal logs in to the management background, and the ADC charging sampling procedure is synchronously configured for the terminal through the management background, and further includes:

according to the attribute information of the terminal, mapping and connecting a corresponding downloading port for the current terminal from the management background;

downloading and configuring the ADC charging sampling program in the application database of the management background on the current terminal through the downloading port;

and after the user selects the charging scheme, the charging data line is accessed, and the ADC charging sampling program starts to be started and prepares for charging sampling.

The terminal logs in the management background, namely the access verification is needed, and the mapping matching of the downloading ports can be performed while the access verification is performed. And after matching, adding the program into the management background, activating a program downloading mechanism, and downloading the program to the added terminal. The procedure or application installation process is not described in detail in this embodiment.

And the user selects a corresponding charging data line to start charging according to the recommendation, the program starts to start, the charging sampling of the data line is performed, and the charging sampling is reported to a management background through the terminal.

As an optional implementation manner of the present application, optionally, the ADC charging sampling procedure on the terminal is used to collect charging data of a charging data line, and the terminal synchronously reports current charging data and electric quantity data, including:

setting a sampling frequency, and sampling according to the sampling frequency;

acquiring charging data of a charging data line through the ADC charging sampling program, acquiring a charging current signal value, and reporting the charging current signal value to the management background through the terminal;

and the terminal synchronously reports the current electric quantity data to the management background.

Sampling frequency, i.e. the frequency at which the program samples and reports, such as every 0.05 s. The setting may be specifically performed in the program.

And when the sampled charging signal value is reported each time, the terminal synchronously reports the current electric quantity data to the management background. The reported charging signal value (real-time charging current value) is used for calculating the charging voltage, and the reported electric quantity is used for calculating the difference value between the reported electric quantity and the electric quantity of the terminal at the last time to obtain the charging quantity of the current terminal.

As an optional embodiment of the present application, optionally, the management background calculates, in real time, a current charging voltage and a current charging amount according to the reported charging data, and synchronously feeds back a calculation result to the terminal in real time, including:

the management background receives a charging current signal value and current electric quantity data reported by the terminal;

according to the charging current signal value, calculating the charging voltage of a charging data line for charging the current terminal through the battery capacity and rated charging voltage of the current terminal, and recording and binding the current charging voltage under the equipment ID of the current terminal;

according to the current electric quantity data and the previously recorded electric quantity values, calculating the current charging electric quantity value, and recording and binding the current charging electric quantity value under the device ID of the current terminal;

and sending the current charging voltage and the current charging electric quantity value to the terminal through the management background, and recommending the current charging voltage and the current charging electric quantity value to a user through the terminal.

As shown in fig. 4, after reporting the charging current signal value and the current electric quantity data each time, the management background may receive the charging current signal value sampled this time and the electric quantity data of the current terminal. According to the method, corresponding charging voltage calculation and electric quantity difference calculation are carried out, calculation results are stored under the equipment ID of the terminal, and the results are synchronously sent to the terminal APP through the background, so that a user can know the charging quantity and the current charging voltage in real time. If the network is disconnected, or a charging data line has problems, etc., so that charging faults or data reporting delay are caused, charging can be performed based on recorded data, etc., and deviation is avoided.

Therefore, the scheme charges the charging amount really of the user, and can avoid cost deviation caused by deviation of charging time.

It should be apparent to those skilled in the art that the implementation of all or part of the above-described embodiments of the method may be implemented by a computer program for instructing relevant hardware, and the program may be stored in a computer readable storage medium, and the program may include the steps of the embodiments of the control methods described above when executed. It will be appreciated by those skilled in the art that implementing all or part of the above-described embodiment methods may be implemented by a computer program for instructing relevant hardware, and the program may be stored in a computer readable storage medium, and the program may include the embodiment flow of each control method as described above when executed. The storage medium may be a magnetic disk, an optical disc, a Read-only memory (ROM), a random access memory (RandomAccessMemory, RAM), a flash memory (flash memory), a hard disk (HDD), or a Solid State Drive (SSD); the storage medium may also comprise a combination of memories of the kind described above.

Example 2

As shown in fig. 5, based on the implementation principle of embodiment 1, another aspect of the present application proposes an apparatus for implementing a self-determining method of the data line charge amount and the charge voltage, including:

the sampling program configuration module is used for editing an ADC charging sampling program and is configured in a management background;

the program downloading module is used for logging in the management background by the terminal and synchronously configuring the ADC charging sampling program for the terminal through the management background; after configuration is completed, a charging data line is accessed, and the terminal starts charging;

the terminal sampling module is used for acquiring charging data of a charging data line by utilizing the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and the feedback module is used for calculating the current charging voltage and the current charging amount in real time according to the reported charging data by the management background and synchronously feeding back the calculation result to the terminal in real time.

The above modules are described in detail in embodiment 1, which is not described in detail in this embodiment.

The modules or steps of the application described above may be implemented in a general-purpose computing device, they may be centralized in a single computing device, or distributed across a network of computing devices, or they may alternatively be implemented in program code executable by a computing device, such that they may be stored in a memory device and executed by a computing device, or they may be separately fabricated into individual integrated circuit modules, or multiple modules or steps within them may be fabricated into a single integrated circuit module. Thus, the present application is not limited to any specific combination of hardware and software.

Example 3

In another aspect of the present application, a data line is provided, where the data line adopts a self-determining method of a charging amount and a charging voltage of the data line, and a self-determining scheme of the charging amount and the charging voltage is provided for a user.

The charging station provided by the merchant can be configured with data lines with different charging powers, and the charging station is used for selecting corresponding charging data lines according to a charging scheme recommended by the merchant in a management background.

The data lines are marked with different charging powers, the background simultaneously records the charging powers of the data lines, the data lines are charged according to the user selection, and the voltage during sampling is the charging voltage of the selected data lines.

Example 4

As shown in fig. 6, in still another aspect, the present application further provides an electronic device, including:

a processor;

a memory for storing processor-executable instructions;

the processor is configured to implement the method for self-determining the charging amount and the charging voltage of the data line when executing the executable instructions.

Embodiments of the present disclosure provide for an electronic device that includes a processor and a memory for storing processor-executable instructions. The processor is configured to execute the executable instructions to implement a method for self-determining the charge amount and the charge voltage of the data line.

Here, it should be noted that the number of processors may be one or more. Meanwhile, in the electronic device of the embodiment of the disclosure, an input device and an output device may be further included. The processor, the memory, the input device, and the output device may be connected by a bus, or may be connected by other means, which is not specifically limited herein.

The memory is a computer-readable storage medium that can be used to store software programs, computer-executable programs, and various modules, such as: a program or module corresponding to a method for self-determining a charging amount and a charging voltage of a data line in an embodiment of the present disclosure. The processor executes various functional applications and data processing of the electronic device by running software programs or modules stored in the memory.

The input device may be used to receive an input number or signal. Wherein the signal may be a key signal generated in connection with user settings of the device/terminal/server and function control. The output means may comprise a display device such as a display screen.

The foregoing description of the embodiments of the present disclosure has been presented for purposes of illustration and description, and is not intended to be exhaustive or limited to the embodiments disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art without departing from the scope and spirit of the various embodiments described. The terminology used herein was chosen in order to best explain the principles of the embodiments, the practical application, or the technical improvement of the technology in the marketplace, or to enable others of ordinary skill in the art to understand the embodiments disclosed herein.

Claims (10)

1. The self-determining method of the data line charge quantity and the charging voltage is characterized by comprising the following steps:

editing an ADC charging sampling program and configuring the ADC charging sampling program in a management background;

the terminal logs in the management background, and synchronously configures the ADC charging sampling program for the terminal through the management background;

after configuration is completed, a charging data line is accessed, and the terminal starts charging;

acquiring charging data of a charging data line by using the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and the management background calculates the current charging voltage and the current charging amount in real time according to the reported charging data, and synchronously feeds back the calculation result to the terminal in real time.

2. The method of claim 1, wherein editing the ADC charging sampling program and configuring in the management background comprises:

setting a charge amount calculation algorithm and a sampling circuit, and constructing and editing a corresponding ADC charging sampling program;

uploading the ADC charging sampling program through a back-end port and installing the ADC charging sampling program in an application database of the management background;

and configuring download ports with different attribute values for the application database, and configuring corresponding terminal mapping relations for the download ports.

3. The method of claim 1, wherein a terminal logs into the management background, and the ADC charging sampling procedure is synchronously configured for the terminal by the management background, comprising:

initiating an access request to the management background of the data line charging background through a terminal, and requesting to establish access connection with the management background;

the management background receives the request and sends a verification request of battery information to the terminal, and waits for the response of the terminal;

after the terminal responds to the verification request of the management background, battery information of the terminal is sent to the management background;

the management background records the battery information of the terminal and binds the battery information under the device ID of the terminal.

4. The method for self-determining a data line charge amount and a charge voltage according to claim 3, wherein a terminal logs into the management background, and the ADC charge sampling program is synchronously configured for the terminal through the management background, further comprising:

the management background analyzes the battery information of the terminal to obtain the battery capacity, rated charging voltage and current electric quantity information of the terminal;

according to the battery capacity and rated charging voltage, calculating charging schemes of charging data lines with different charging powers, recommending the charging schemes to users through the terminal, and waiting for the users to select the charging schemes;

and recording the current electric quantity value according to the current electric quantity information and binding the current electric quantity value under the equipment ID of the terminal.

5. The method according to claim 4, wherein a terminal logs into the management background, and the ADC charging sampling program is synchronously configured for the terminal by the management background, further comprising:

according to the attribute information of the terminal, mapping and connecting a corresponding downloading port for the current terminal from the management background;

downloading and configuring the ADC charging sampling program in the application database of the management background on the current terminal through the downloading port;

and after the user selects the charging scheme, the charging data line is accessed, and the ADC charging sampling program starts to be started and prepares for charging sampling.

6. The method for self-determining a charging amount and a charging voltage of a data line according to claim 5, wherein collecting charging data of a charging data line by using the ADC charging sampling program on the terminal, and synchronously reporting current charging data and power data by the terminal, comprises:

setting a sampling frequency, and sampling according to the sampling frequency;

acquiring charging data of a charging data line through the ADC charging sampling program, acquiring a charging current signal value, and reporting the charging current signal value to the management background through the terminal;

and the terminal synchronously reports the current electric quantity data to the management background.

7. The method for self-determining a charging amount and a charging voltage of a data line according to claim 6, wherein the managing background calculates a current charging voltage and a current charging amount in real time according to the reported charging data, and synchronously feeds back a calculation result to the terminal in real time, and the method comprises the steps of:

the management background receives a charging current signal value and current electric quantity data reported by the terminal;

according to the charging current signal value, calculating the charging voltage of a charging data line for charging the current terminal through the battery capacity and rated charging voltage of the current terminal, and recording and binding the current charging voltage under the equipment ID of the current terminal;

according to the current electric quantity data and the previously recorded electric quantity values, calculating the current charging electric quantity value, and recording and binding the current charging electric quantity value under the device ID of the current terminal;

and sending the current charging voltage and the current charging electric quantity value to the terminal through the management background, and recommending the current charging voltage and the current charging electric quantity value to a user through the terminal.

8. An apparatus for implementing the method for self-determining the charge amount and the charge voltage of the data line according to any one of claims 1 to 7, comprising:

the sampling program configuration module is used for editing an ADC charging sampling program and is configured in a management background;

the program downloading module is used for logging in the management background by the terminal and synchronously configuring the ADC charging sampling program for the terminal through the management background; after configuration is completed, a charging data line is accessed, and the terminal starts charging;

the terminal sampling module is used for acquiring charging data of a charging data line by utilizing the ADC charging sampling program on the terminal, and synchronously reporting current charging data and electric quantity data through the terminal;

and the feedback module is used for calculating the current charging voltage and the current charging amount in real time according to the reported charging data by the management background and synchronously feeding back the calculation result to the terminal in real time.

9. A data line, wherein the data line adopts the self-determination method of the charge amount and the charge voltage of the data line according to any one of claims 1 to 7, and provides a self-determination scheme of the charge amount and the charge voltage for a user.

10. An electronic device, comprising:

a processor;

a memory for storing processor-executable instructions;

wherein the processor is configured to implement the method of self-determining the data line charge and charge voltage of any one of claims 1-7 when executing the executable instructions.