KR20220072192A - Method And System for Charging Electric Vehicle by Using Random Number - Google Patents

Abstract

Disclosed are a method and system for charging an electric vehicle using random numbers.
In this embodiment, even if you do not have an electric vehicle charging card, you can receive a charging code using a random number table from an application and use it for the electric vehicle charger to receive power from the charging station, and transmit the charging code to a third party even if you are not the electric vehicle owner Accordingly, a method and system for charging an electric vehicle using random numbers that allow a third party to charge more conveniently are provided.

Description

Method And System for Charging Electric Vehicle by Using Random Number

An embodiment of the present invention relates to a method and system for charging an electric vehicle using a random number.

The content described below merely provides background information related to the present embodiment and does not constitute the prior art.

As we enter the era of electric vehicle distribution, more and more residents are using electric vehicles in apartments, collective buildings, Obiz Tower, and Penteraum. is growing However, there is still no consensus among residents on the installation of electric vehicle chargers, and conflicts with residents and external users about the installation and use of charging stations are occurring in each apartment, collective building, Obiz Tower, and Penteraum. the current situation.

The supply of electric vehicles is increasing every year, and along with the increase in electric vehicles, the charging infrastructure is also increasing. However, compared to the number of registered electric vehicles, the number of places where chargers are installed is still insufficient. The lack of chargers is still the biggest inconvenience for using electric vehicles.

Expansion of charging facilities is of paramount importance in order to solve the inconvenience of electric vehicle users and ultimately expand the use of electric vehicles to protect the environment. However, due to the lack of existing parking spaces, it is difficult to set up a separate charging area for electric vehicles. In order to install a charger in an apartment, the decision of the resident representative meeting and the management team is important, and there are residents who complain about the problem of occupying a separate exclusive area, so there are many places that express difficulties in the installation request of users.

In this embodiment, even if you do not have an electric vehicle charging card, you can receive a charging code using a random number table from an application and use it for the electric vehicle charger to receive power from the charging station, and transmit the charging code to a third party even if you are not the electric vehicle owner Accordingly, an object of the present invention is to provide a method and system for charging an electric vehicle using random numbers that allow a third party to charge more conveniently.

According to one aspect of the present embodiment, a random number is generated based on a pre-stored Unique Code at each point in time when a preset period arrives, is stored in the first random number table, and when a charging authorization is requested, the first 1 A server that extracts a random number corresponding to the point in time at which the charging authorization is requested from the random number table, generates a QR code, and transmits it to the outside; and a terminal for receiving and outputting the QR code. It receives the QR code, extracts a random number included in the QR code, generates a random number based on a pre-stored unique code every time a preset period arrives, stores it in a second random number table, and stores the QR code Provided is an electric vehicle charging system using random numbers, characterized in that it includes an electric vehicle charger that applies power to be charged for a predetermined specific time when the random number included in the random number exists in the second random number table.

According to another aspect of the present embodiment, the server generates a random number based on a pre-stored unique code at each time a preset period arrives and stores the generated random number in a first random number table; when the server receives a request for granting charging authority, extracting a random number corresponding to the time at which the charging authority is requested from the first random number table, generating a QR code and transmitting it to the outside; receiving and outputting the QR code in a terminal; receiving the QR code from an electric vehicle charger and extracting a random number included in the QR code; generating a random number based on a pre-stored unique code every time a preset period arrives in the electric vehicle charger and storing the random number in a second random number table; and when the random number included in the QR code exists in the second random number table in the electric vehicle charger, applying power to enable charging for a preset specific time. provides

As described above, according to this embodiment, even if you do not have an electric vehicle charging card, you can receive a charging code using a random number table from an application and use it for the electric vehicle charger to receive power from the charging station, even if you are not the electric vehicle owner. There is an effect of sending a charging code to a third party so that the third party can charge the battery more conveniently.

1 is a diagram illustrating an electric vehicle charging system using random numbers according to the present embodiment.
2 is a diagram illustrating a server that generates a code based on a random number according to the present embodiment.
3 is a diagram illustrating a charger for determining whether to charge based on an input code according to the present embodiment.

Hereinafter, this embodiment will be described in detail with reference to the accompanying drawings.

1 is a diagram illustrating an electric vehicle charging system using random numbers according to the present embodiment.

The electric vehicle charging system according to the present embodiment includes an electric vehicle 110 , an electric vehicle charger 112 , a charging station 120 , a server 130 , a terminal 140 , and an electric vehicle charging application 142 . Components included in the electric vehicle charging system are not necessarily limited thereto.

The electric vehicle 110 may be connected to the charging station 120 via the electric vehicle charger 112 to charge the battery.

The electric vehicle charger 112 is connected between the electric vehicle 110 and the charging station 120 to transmit power supplied from the charging station 120 to the electric vehicle 110 .

The electric vehicle charger 112 is a non-public personal electric vehicle charger, and does not include a modem or a wireless communication module. General non-public personal electric vehicle charger If you want to charge a plurality of electric vehicles, there is a problem that all charges are charged with the charger.

In the case of lending the electric vehicle charger 112 according to the present embodiment to another person, the electric vehicle charger 112 recognizes the QR code when the owner of the electric vehicle charger 112 transmits a QR code containing the use right to the terminal of another person. After the QR code is authenticated, charging is possible.

The owner of the electric vehicle charger 112 may use the electric vehicle charging application 142 to transmit the right to charge the other party for a preset time to another person. The electric vehicle charger 112 is equipped with a second random number table 320 that generates and stores random numbers therein. Even if the owner of the electric vehicle does not have a charging card, he/she can grant the authority to charge the electric vehicle to another person only with the personal electric vehicle charger 112 .

A user with charging authority may transmit a QR code to grant charging authority to another person without charging authority using the electric vehicle charging application 142, and then transmit an authorization message for charging after the QR code is authenticated.

A general charger is enabled in a chargeable state when the charging card is tagged, and the electric vehicle charger 112 according to this embodiment uses a QR code without tagging the charging card in a state that does not have a communication function such as a modem. Recognize and recharge

The electric vehicle charger 112 includes a QR reader in the form of a scanner or camera that can recognize a QR code. The electric vehicle charger 112 recognizes the QR code using a camera or a reader, and checks the random number stored in the second random number table 320 to compare the random number extracted from the QR code.

When the electric vehicle charger is registered with the server 130 , the electric vehicle charger 112 internally stores a unique code assigned to the electric vehicle charger 112 . The electric vehicle charger 112 generates a random number based on the date, time, and unique code at a preset period and stores it in the second random number table 320 .

The electric vehicle charger 112 stores a random number generated based on the date, time (variable), and unique code (fixed value) in the second random number table 320 at a preset cycle. The electric vehicle charger 112 stores the same unique code as the server 130 as a fixed value. Since the electric vehicle charger 112 continuously generates a new random number according to a preset period, the random number stored in the second random number table 320 is continuously updated.

When generating a random number, the electric vehicle charger 112 generates a random number as many as a pre-allocated number of digits (eg, 6 digits), and generates a new random number at a preset period (eg, time unit, weekly unit, monthly unit). can The electric vehicle charger 112 selects at least two variable values among date, hour, and minute each time a corresponding cycle arrives, and then multiplies it by a unique code (fixed value) to generate a random number (eg, 6 digits).

For example, the electric vehicle charger 112 multiplies the unique code (fixed value) by at least two variable values of the corresponding date, hour, and minute in a preset hour unit (eg, 1 hour unit or 2 hour unit). Random numbers of a set number of digits (eg, 6 digits) are generated and stored as many as the number (eg, 1024) allocated to the second random number table 320 . Thereafter, when all random numbers are stored in the number (eg, 1024) allocated to the second random number table 320, the electric vehicle charger 112 converts the newly generated random number in weekly units (eg, every Monday or every other Monday) to the second random number. The random number stored first in the table 320 is replaced and continuously updated.

The electric vehicle charger 112 multiplies the unique code (fixed value) by at least two variable values of the date, time, and minute in a preset weekly unit (eg, every Monday or every other Monday) to a preset number of digits (eg, , 6 digits) are generated and stored as many as the number (eg, 1024) allocated to the second random number table 320 . Thereafter, when all random numbers are stored in the number (eg, 1024) allocated to the second random number table 320, the electric vehicle charger 112 converts the newly generated random number on a weekly basis (eg, every Monday or every other Monday) into the second random number. The random number stored first in the table 320 is replaced and continuously updated.

The electric vehicle charger 112 multiplies the unique code (fixed value) by at least two variable values of the corresponding date, hour, and minute in a preset monthly unit (eg, the first day of every month or the first day of every other month) to a preset number of digits ( For example, a random number of 6 digits is generated and stored as many as the number (eg, 1024) allocated to the second random number table 320 . Then, when all random numbers are stored in the number (eg, 1024) allocated to the second random number table 320, the electric vehicle charger 112 converts the newly generated random number in monthly units (eg, the first day of every month or the first day of every other month) to the second random number. The random number stored first in the table 320 is replaced and continuously updated.

When receiving a QR code from another person's terminal 140 or the electric vehicle owner's terminal 140, the electric vehicle charger 112 extracts a random number included in the QR code. The electric vehicle charger 112 checks whether the random number included in the QR code is stored in the second random number table 320 . When the random number included in the QR code is stored in the second random number table 320, the electric vehicle charger 112 applies power to enable charging for a predetermined specific time.

When the charging station 120 requests power after the electric vehicle charger 112 is connected, the charging station 120 supplies power to the electric vehicle 110 via the electric vehicle charger 112 .

The server 130 includes the same hardware module as a conventional web server or network server in terms of hardware. The server 130 may be implemented in the form of a web server or a network server.

The server 130 generally communicates with an unspecified number of clients or other servers via an open computer network such as the Internet. The server 130 refers to a computer system and computer software (web server program) that derives and provides a job result corresponding to a job performance request of a client or other web server.

The server 130 should be understood as a broad concept including, in addition to the above-described web server program, a series of application programs operating on the web server or various databases built in the device.

When the electric vehicle charger 112 registers, the server 130 stores and manages member registration information and a unique code in a database (Database). The aforementioned database may be implemented inside or outside the server 130 . The database refers to a general data structure implemented in the storage space (hard disk or memory) of a computer system using a database management program (DBMS).

The server 130 according to the present embodiment generates a random number based on a pre-stored unique code every time a preset period arrives and stores it in the first random number table 220 . When the server 130 receives a request for charging authorization from the terminal 140 , the server 130 extracts a random number corresponding to the time when the request for charging authorization is requested from the first random number table 220 , generates a QR code, and transmits it to the outside.

The server 130 generates a QR code based on the pre-stored first random number table 220 . The server 130 transmits the QR code to the terminal 140 of the electric vehicle owner. The electric vehicle owner's terminal 140 receives the QR code from the server 130 using the mounted electric vehicle charging application 142 . The owner's terminal 140 can transmit the QR code to another person using the mounted electric vehicle charging application 142 .

When the electric vehicle charger 112 is registered, the server 130 internally stores a unique code assigned to the electric vehicle charger 112 . When the server 130 receives the charging authorization request, the server 130 generates a random number based on the requested date and time, charging time, and a unique code and stores it in the first random number table 220 .

The server 130 stores in the first random number table 220 a random number generated based on a request for granting charging authority, a time (variable), and a unique code (fixed value). The server 130 stores the same unique code as the electric vehicle charger 112 as a fixed value.

The server 130 generates a QR code that grants charging authority for a preset specific time based on the random number stored in the first random number table 220 and transmits the generated QR code to the electric vehicle owner terminal 140 . The server 130 generates a QR code with a calculated value by multiplying a random number corresponding to the hour and minute of the time at which charging authorization is requested.

When the server 130 generates a random number, it generates a random number as many as a pre-allocated number of digits (eg, 6 digits), and may newly generate a random number at a preset period (eg, time unit, weekly unit, monthly unit). have. The server 130 selects at least two variable values of the corresponding date, hour, and minute, and then multiplies it by the unique code to generate a random number (eg, 6 digits).

The terminal 140 refers to an electronic device that performs voice or data communication via a network according to a user's key manipulation. The terminal 140 includes a memory for storing a program or protocol for communicating with the server 130 via a network, and a microprocessor for executing and controlling the corresponding program.

The terminal 140 includes a smart phone, a tablet, a laptop, a personal computer (PC), a personal digital assistant (PDA), a game console, and a portable multimedia player (PMP). : Portable Multimedia Player), PlayStation Portable (PSP: PlayStation Portable), wireless communication terminal (Wireless Communication Terminal), TV, may be an electronic device such as a media player.

The terminal 140 is various devices including a communication device such as a communication modem for performing communication with various devices or wired and wireless networks, a memory for storing various programs and data, and a microprocessor for operating and controlling the program by executing the program. to be. According to at least one embodiment, the memory is a computer such as random access memory (RAM), read only memory (ROM), flash memory, optical disk, magnetic disk, solid state disk (SSD), etc. It may be a readable recording/storage medium. According to at least one embodiment, a microprocessor may be programmed to selectively perform one or more of the operations and functions described herein. According to at least one embodiment, the microprocessor may be implemented in whole or in part as hardware such as an Application Specific Integrated Circuit (ASIC) having a specific configuration.

The terminal 140 mounts the electric vehicle charging application 142 in an embedded or installed form. The terminal 140 receives and outputs the QR code from the server 130 using the mounted electric vehicle charging application 142 , or transmits it to the third-party terminal 140 .

In other words, the terminal 140 receives and outputs the QR code using the mounted electric vehicle charging application 142 . The terminal 140 transmits the QR code to the third-party terminal by the user's operation or command.

The electric vehicle charging application 142 is mounted in the terminal 140 to receive the QR code from the server 130 . The electric vehicle charging application 142 transmits the QR code received from the server 130 to the third-party terminal by the user's manipulation or command.

2 is a diagram illustrating a server that generates a code based on a random number according to the present embodiment.

When the server 130 receives the charging authorization request, it inputs the same unique code as the electric vehicle charger 112 as a fixed value, and multiplies the date and time (variable value) for which the charging authorization request is requested. Generate a random number. The electric vehicle charger 112 and the server 130 share the same unique code. The unique code can be shared by model, year of shipment, or serial number. The unique code may be changed at a preset period.

The server 130 stores the random number in the first random number table 220 and then generates the random number stored in the first random number table 220 in the form of a QR code.

The server 130 inputs the same unique code shared with the electric vehicle charger 112 as a fixed value, and multiplies the date and time (variable value) in a preset unit based on the time at which charging authorization is requested. A value is generated as a random number, and a QR code containing the random number is generated. When registering the electric vehicle charger 112, the server 130 inputs the serial number of the electric vehicle charger 112 or inputs a preset unique number as a unique code.

The server 130 generates a random number based on a pre-stored unique code every time a preset period arrives, stores it in the first random number table 220, and when receiving a request for charging authorization, the first random number table 220 ) extracts a random number corresponding to the time when charging authorization is requested, generates a QR code, and transmits it to the terminal 140 . Here, the server 130 and the electric vehicle charger 112 share the same unique code including at least one of each model, year of shipment, and serial number.

The server 130 according to the present embodiment includes a first random number generator 210 , a first random number table 220 , a code generator 230 , and a code transmitter 240 . Components included in the server 130 are not necessarily limited thereto.

Each component included in the server 130 may be connected to a communication path that connects a software module or a hardware module inside the device to organically operate with each other. These components communicate using one or more communication buses or signal lines.

Each component of the server 130 shown in FIG. 2 means a unit for processing at least one function or operation, and may be implemented as a software module, a hardware module, or a combination of software and hardware.

The first random number generator 210 selects at least two variable values among date, hour, and minute whenever a preset period arrives, and then multiplies it by a fixed value corresponding to the unique code to generate a random number as many as a preset number of digits. do.

When the first random number generator 210 receives a request for charging authorization from the terminal 140 , it is necessary to generate a random number based on the request for charging authorization and a pre-stored unique code and store it in the first random number table 220 . It can be directly transmitted to the code generator 230 without

The first random number generator 210 selects at least two variable values of the date, hour, and minute corresponding to the time when charging authorization is requested, multiplies the value by the unique code to generate a random number as many as a preset number of digits, and then 1 It can be transmitted directly to the code generator 230 without needing to be stored in the random number table 220 .

The first random number table 220 stores the number of random numbers generated by the first random number generator 210 by a pre-allocated number.

In the first random number table 220, when all random numbers are stored as many as a pre-allocated number (eg, 1024), the first random number generated by the first random number generator 210 at a preset period is the first random number stored in the first random number table. It is continuously updated and saved by replacing it.

The code generator 230 extracts a random number corresponding to the time when charging authorization is requested from among the random numbers stored in the first random number table 220, and generates a random number corresponding to the time when charging authorization is requested as a QR code. .

The code generation unit 230 may generate a random number generated based on the request for charging authorization and a pre-stored unique code as a QR code without having to store it in the first random number table 220 and transmit it to the terminal 140 . .

The code transmission unit 240 transmits the QR code to the preset terminal 140 .

3 is a diagram illustrating a charger for determining whether to charge based on an input code according to the present embodiment.

The electric vehicle charger 112 inputs the same unique code or product serial number as the server 130 at a preset period as a fixed value, and generates a random number by multiplying the date and time (variable value) in a preset unit. do. The electric vehicle charger 112 stores the generated random number in the second random number table 320 . The electric vehicle charger 112 and the server 130 share the same unique code. The unique code can be shared by model, year of shipment, or serial number. The unique code may be changed at a preset period.

When power is applied, the electric vehicle charger 112 multiplies the date and time in a preset unit based on the power application time as a fixed value with the unique code as a random number, the number pre-assigned to the second random number table 320 (for example, , 1024) and stored in the second random number table 320 . For example, 1024 random numbers may be stored as 4 digits.

The electric vehicle charger 112 enables charging for a preset time when the value of the QR recognized by the provided QR reader matches any one of the random numbers (eg, 1024) pre-stored in the second random number table 320 . .

Since the electric vehicle charger 112 uses the second random number table 320, charging can be performed without a separate card for charging. Even if it is not the owner, it is possible to charge it to a third party.

When the electric vehicle charger 112 recognizes the QR code output by the terminal 140, it extracts a random number included in the QR code. The electric vehicle charger 112 generates a random number based on a pre-stored unique code every time a preset period arrives, stores it in the second random number table 320, and stores the random number included in the QR code in the second random number table. If present, power is applied to enable charging for a predetermined specific time. Here, the server 130 and the electric vehicle charger 112 share the same unique code including at least one of each model, year of shipment, and serial number.

The electric vehicle charger 112 according to the present embodiment includes a second random number generator 310 , a second random number table 320 , a code input unit 330 , a random number extraction unit 340 , a random number comparison unit 350 , and charging authentication. It includes a unit 360 and a charge controller 370 . Components included in the electric vehicle charger 112 are not necessarily limited thereto.

Each component included in the electric vehicle charger 112 may be connected to a communication path that connects a software module or a hardware module inside the device to organically operate with each other. These components communicate using one or more communication buses or signal lines.

Each component of the electric vehicle charger 112 shown in FIG. 3 means a unit that processes at least one function or operation, and may be implemented as a software module, a hardware module, or a combination of software and hardware.

The second random number generator 310 selects at least two variable values among date, hour, and minute whenever a preset period arrives, and then multiplies it by a fixed value corresponding to the unique code to generate a random number as many as a preset number of digits. do.

The second random number table 320 stores a predetermined number of random numbers generated by the second random number generator 310 .

In the second random number table 320, when all random numbers are stored as many as a pre-allocated number (eg, 1024), the random number newly generated by the second random number generator 310 at a preset period is the first random number stored in the second random number table. It is continuously updated and saved by replacing it.

The random number comparison unit 350 checks whether a random number identical to the random number extracted from the QR code exists among the random numbers existing in the second random number table 320 . The code input unit 330 is implemented in the form of any one of a scanner, a camera, and a reader to receive or recognize a QR code output from the terminal 140 . The random number extraction unit 340 extracts a random number included in the QR code.

When there is a random number identical to the random number extracted from the QR code among the random numbers existing in the second random number table 320 , the charging authentication unit 360 authenticates the QR code as a code having charging authority. When the QR code is authenticated, the charge controller 370 applies power to enable charging for a preset specific time.

The above description is merely illustrative of the technical idea of this embodiment, and a person skilled in the art to which this embodiment belongs may make various modifications and variations without departing from the essential characteristics of the present embodiment. Accordingly, the present embodiments are intended to explain rather than limit the technical spirit of the present embodiment, and the scope of the technical spirit of the present embodiment is not limited by these embodiments. The protection scope of this embodiment should be interpreted by the following claims, and all technical ideas within the scope equivalent thereto should be interpreted as being included in the scope of the present embodiment.

110: electric vehicle 112: electric vehicle charger
120: charging station
130: server
140: terminal 142: electric vehicle charging application

Claims (13)

When a preset period arrives, a random number is generated based on a pre-stored unique code and stored in the first random number table. a server that extracts a random number corresponding to the requested time, generates a QR code, and transmits it to the outside; and
a terminal for receiving and outputting the QR code;
It receives the QR code, extracts a random number included in the QR code, generates a random number based on a pre-stored unique code every time a preset period arrives, stores it in a second random number table, and stores the QR code When the random number included in the random number exists in the second random number table, an electric vehicle charger that applies power to allow charging for a preset specific time
An electric vehicle charging system using a random number, characterized in that it comprises a. According to claim 1,
The electric vehicle charging system using random numbers, characterized in that the server and the electric vehicle charger share the same unique code including at least one of model, shipment year, and serial number. 3. The method of claim 2,
The server is
a first random number generator that selects at least two variable values from among date, hour, and minute each time a preset period arrives, and then multiplies a fixed value corresponding to the unique code to generate a random number corresponding to a preset number of digits;
a first random number table for storing random numbers generated by the first random number generator by a pre-allocated number;
An electric vehicle charging system using random numbers, characterized in that it comprises a. 4. The method of claim 3,
The first random number table is
Random number characterized in that when all the random numbers are stored as many as the pre-allocated number, the random number newly generated by the first random number generator at a preset period replaces the first stored random number in the first random number table and continuously updates and stores it electric vehicle charging system using 5. The method of claim 4,
The server is
a code generator for extracting a random number corresponding to a time when the charging authorization is requested from among the random numbers stored in the first random number table, and generating a random number corresponding to the time when the charging authorization is requested as the QR code;
Code transmitter for transmitting the QR code to the preset terminal
An electric vehicle charging system using a random number, characterized in that it comprises a. 6. The method of claim 5,
The terminal is
An electric vehicle charging system using a random number, characterized in that receiving and outputting the QR code using a mounted electric vehicle charging application, and transmitting the QR code to a third-party terminal according to a user's operation or command. According to claim 6,
The electric vehicle charger,
a code input unit implemented in any one of a scanner, a camera, and a reader to receive the QR code;
a random number extraction unit for extracting a random number included in the QR code;
An electric vehicle charging system using a random number, characterized in that it comprises a. 8. The method of claim 7,
The electric vehicle charger,
a second random number generator that selects at least two variable values from among date, hour, and minute whenever a preset period arrives, then multiplies the value by a fixed value corresponding to the unique code to generate a random number corresponding to a preset number of digits;
a second random number table for storing random numbers generated by the second random number generator by a pre-allocated number;
An electric vehicle charging system using random numbers, characterized in that it comprises a. 9. The method of claim 8,
The second random number table is
Random number characterized in that when all random numbers are stored as many as the pre-allocated number, the second random number generator continuously updates and stores the random number newly generated at a preset period by replacing the first stored random number in the second random number table electric vehicle charging system using 10. The method of claim 9,
The electric vehicle charger
a random number comparison unit for checking whether a random number identical to the random number extracted from the QR code exists among the random numbers existing in the second random number table;
a charging authentication unit for authenticating the QR code as a code having charging authority when a random number matching the random number extracted from the QR code exists among the random numbers existing in the second random number table; and
When the QR code is authenticated, a charge controller that applies power to allow charging for a preset specific time
An electric vehicle charging system using a random number, characterized in that it comprises a. According to claim 1,
The server is
When the charging authorization is requested, a random number is generated based on the time when the charging authorization is requested and a pre-stored unique code, and a QR code including the random number is generated and transmitted to the outside. electric vehicle charging system. 12. The method of claim 11,
The server is
After selecting at least two variable values of the date, hour, and minute corresponding to the time when the charging authorization is requested, multiplying the unique code to generate a random number as many as a preset number of digits, and then the time when the charging authorization is requested An electric vehicle charging system using a random number, characterized in that generating the QR code including the random number corresponding to and transmitting the generated QR code to the terminal. A process of generating a random number based on a pre-stored unique code every time a preset period arrives in the server and storing it in a first random number table;
when the server receives a request for granting charging authority, extracting a random number corresponding to the time at which the charging authority is requested from the first random number table, generating a QR code and transmitting it to the outside;
receiving and outputting the QR code in a terminal;
receiving the QR code from an electric vehicle charger and extracting a random number included in the QR code;
generating a random number based on a pre-stored unique code every time a preset period arrives in the electric vehicle charger and storing the generated random number in a second random number table; and
In the electric vehicle charger, when a random number included in the QR code exists in the second random number table, a process of applying power to allow charging for a preset specific time
An electric vehicle charging method using random numbers, comprising:

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