KR101233792B1 - Unmanned selling system of power for charge of electric car and method thereof - Google Patents

Abstract

The present invention relates to an unmanned electric sales system for charging an electric vehicle, which is carried by a user who wants to charge or mounted in a vehicle, and is provided through a short range wireless communication function and a network (Internet dedicated line using a Wi-Fi or mobile communication network, etc.). A mobile communication terminal capable of accessing a dedicated service server; MCU (Micro Controller Unit) with a charger identification ID, a device that can switch electricity, a current control module that can control the current according to the state and charging time of a charging vehicle, and an RF module for controlling them And according to a predetermined scenario according to a program embedded in the MCU, and the MCU supplies power from a charging electrical outlet for a charging request through short-range wireless communication with the mobile communication terminal through an RF module. Charging electrical outlets to perform blocking; The program installed and executed in the mobile communication terminal performs charging request and progress through short-range wireless communication with the RF module installed in the electrical outlet for charging, and connects with a dedicated service server online to identify the charger ID of the electrical outlet for charging. A mobile communication terminal application for checking, selecting a charging fee from a user, selecting a payment method, requesting a payment for a fee, and delivering a result of a dedicated service server for the request to a charging outlet; And verifying whether a valid device is authenticated by checking a charger identification ID of the electric outlet for charging according to the request of the mobile communication terminal application of the electric buyer, and receiving information on the payment method received together with the payment request of the electric buyer. Make a payment request for the corresponding fee to the payment institution, and transmit the approval result of the payment request to the mobile terminal of the electric buyer and store the contents in a DB so that the electric buyer can confirm it later. Dedicated service server; characterized in that it comprises a.

Description

Unmanned electric sales system for electric vehicle charging and unmanned electric sales method for electric vehicle charging {UNMANNED SELLING SYSTEM OF POWER FOR CHARGE OF ELECTRIC CAR AND METHOD THEREOF}

The present invention relates to an unmanned electric sales system for charging an electric vehicle and an unmanned electric sales method for charging an electric vehicle, and more particularly, to an unmanned electric supply and a payment system and a method thereof.

At present, electric vehicles are under sales, but due to the limited installation of electric charging stations, only a limited number of public vehicles, such as public institutions, are in trial operation. The distribution of electric vehicles should be pre-installed with the installation of an electric charging station, various methods for charging and selling electric vehicles have been known and tried. However, this method is difficult to spread a lot in a short time due to the trouble of installation and cost as described below.

Commonly having a charging connection for electrically connecting electricity supplied from the outside with a battery of the vehicle; Charging the electric vehicle by receiving user authentication information and charging request information; Sending the received user authentication information to a payment server to receive an authentication result; Calculating a payment cost according to the charging capacity charged in the electric vehicle; Send the payment cost to the payment server; A payment control unit for receiving a payment result from the payment server; And an electronic vending machine for an electric vehicle, including a payment display unit displaying an authentication result based on the user authentication information, the charge request information, and a payment result. All these vending machines must be equipped with a system for electricity supply and control, a system for billing, and wired / wireless communication in a specific place, such as a current gas station, when used for sale except for home-owned operation. New installations require a lot of cost and space. In other words, all of these controls and payments for charging the electric vehicle in the equipment (equipment) that the seller has in advance, like the current gas station is required a certain number of facilities and management personnel. It is difficult to meet the demand for electric vehicle charging, which requires the installation of many charging stations as soon as possible in terms of installation cost and manpower.

In addition, the existing bill payment method uses the information such as cash, the buyer's credit card, mobile phone number, etc., the seller accesses the system of the credit card company or mobile carrier to perform the payment. Therefore, it is essential for the seller to have a dedicated terminal and install a wired / wireless communication system for the payment approval request. In addition, the user is forced to bear the inconvenience and anxiety of providing his or her credit card information or mobile phone information. In addition, a lot of victims are generated by the seller illegally using the obtained user's credit card information, or by paying more than the amount requested by the buyer. In order to solve this problem, various methods of paying by the user have been proposed. As a conventional technology for a method of paying by the user in sales, 1) a credit card payment method using a mobile communication terminal (1003543900000) has been proposed. This is impossible for unmanned sales because the user submits a credit card to the seller, and 2) a credit card and gift voucher payment system and method (10-2008-0070821) using a mobile terminal have been proposed. The payment system of the purchased goods through the network based on the internet network or the telephone network-the payment information of the goods or services, the seller specification, the price specification, the buyer related information (including the buyer's mobile phone number, etc.)-the mobile payment server To make a direct payment by the buyer, which also means There is a drawback that the buyer can purchase the desired product only by operating the sales system and the sales force, but the purchaser directly executes his own terminal. 3) Mobile credit card payment system and method thereof ), Mobile phone with card payment and card payment method (10-2000-0028409), payment approval, settlement and membership registration method, device and system (10-2008-0119424), wireless by purchaser using mobile communication terminal, wireless Credit card use method (1007605900000) in the merchants using infrared communication, payment processing method (1008734130000) using a wireless terminal also uses a mobile communication device instead of the existing credit card payment machine, which requires the intervention of the seller unattended sales It does not give a way for As described above, in the user direct payment method, the subject of payment is also the buyer, but the result is notified to the seller, and the result must be confirmed by the seller.

The present invention has been made to solve the problem according to the above-described conventional electric vehicle charging method, the first problem to be solved by the present invention is that the user can directly make a payment to their portable mobile terminal without going through the seller An unmanned electric sales system and an unmanned electricity sales method for charging an electric vehicle are provided.

The second problem to be solved by the present invention is to provide an unmanned electric sales system and unmanned electric sales method for charging an electric vehicle having a low installation cost and unmanned operation.

The above-described problems of the present invention are mobile, equipped with a user who wants to charge or mounted in a vehicle, and can be connected to a dedicated service server through a short-range wireless communication function and a network (such as an Internet dedicated line using a WiFi or a mobile communication network). Communication terminal; MCU (Micro Controller Unit) with a charger identification ID, a device that can switch electricity, a current control module that can control the current according to the state and charging time of a charging vehicle, and an RF module for controlling them And according to a predetermined scenario according to a program embedded in the MCU, and the MCU supplies power from a charging electrical outlet for a charging request through short-range wireless communication with the mobile communication terminal through an RF module. Charging electrical outlets to perform blocking; The program installed and executed in the mobile communication terminal performs charging request and progress through short-range wireless communication with the RF module installed in the electrical outlet for charging, and connects with a dedicated service server online to identify the charger ID of the electrical outlet for charging. A mobile communication terminal application for checking, selecting a charging fee from a user, selecting a payment method, requesting a payment for a fee, and delivering a result of a dedicated service server for the request to a charging outlet; And verifying whether a valid device is authenticated by checking a charger identification ID of the electric outlet for charging according to the request of the mobile communication terminal application of the electric buyer, and receiving information on the payment method received together with the payment request of the electric buyer. Make a payment request for the corresponding fee to the payment institution, and transmit the approval result of the payment request to the mobile terminal of the electric buyer and store the contents in a DB so that the electric buyer can confirm it later. Dedicated service server; is solved by an unmanned electric sales system for charging an electric vehicle comprising a.

At this time, the mobile communication terminal application, the charging request to the electrical outlet for charging; Receiving a charger identification ID transmitted by the charging electrical outlet receiving the charging request; Querying the charger service ID information for the dedicated service server; Receiving validity and various information of a charger identification ID from the dedicated service server; Display the information received from the dedicated service server, receive (select) the desired charge (charge) and payment method from the user, using the charge corresponding to the above charge amount and the charger identification ID information of the selected payment method and charging outlet Performing a payment request to a dedicated service server, wherein the dedicated service server makes a payment request to a payment target institution using the charger identification ID, the requested payment amount, and payment means information; Receiving a settlement result for the settlement request from a settlement target institution; Storing the payment result in a DB and sending the corresponding payment result to the charging request mobile communication terminal as an encrypted charging approval code; and the charging electrical outlet receives the charge approval code from the mobile communication terminal and charges the charging result. Analyzing the approval code, if the approval code is a predetermined appointment, controlling the power to supply electricity as much as the payment is approved, and cut off the power supply if not the charge approval code in advance; If the charge approval code is not a pre-promised charge approval code, the device transmits a rejection signal for the charge request, and in the case of the pre-appointed charge approval code, when the supply of power as much as payment is completed, the charge is completed to the charge request terminal. Transmitting a signal;

According to the present invention, the buyer makes a request for charging and payment through his portable mobile terminal and the payment result is stored in a dedicated service server rather than being notified to the seller. Since only the existing power supply outlet only needs to be replaced by the charging electrical outlet of the present invention, low installation cost and unmanned operation are possible. In addition, since the electric outlet does not have to have a separate mechanical device and wired / wireless communication network for payment, the electric outlet is easy to install and inexpensive, and can be supplied in a short time, thus contributing to the rapid spread of electric vehicles. have. In addition, it can be applied to all devices requiring electricity in addition to electric vehicles. This is easy to install because it only needs to replace the electric outlet for charging according to the present invention instead of the existing electrical supply outlet, it does not need a separate manpower to manage it can be installed anywhere where the parking space is secured. . In addition, any building owner with a parking space can install an electric outlet for charging according to the present invention to perform the electric sales business without a separate manager or management costs. As a result, electric charging outlets for automobiles are installed in many public places and buildings, which can greatly help the spread of electric vehicles.

1 is a block diagram of an unmanned automatic charging system.
2 is a flowchart illustrating the overall operation of the unmanned automatic charging system.
3 is an overall operation flowchart of the unmanned automatic charging system.
4 is a configuration diagram of a charging outlet.
5 is an application configuration diagram of a portable terminal.
6 shows an example of execution of a program of the portable terminal.
7 is a program configuration diagram of a server.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings.

As shown in Figures 1 and 2, the present invention is a charging electric outlet 100 of the present invention in all buildings having a public facility or a parking facility, rather than a dedicated charging station equipped with large-scale facilities, such as the current gas station in the electric vehicle charging (100) ) Is an unmanned electricity sales system that allows users (electrical buyers) to directly charge and settle by installing unmanned).

1) The charging electrical outlet 100, as shown in Figure 4, the electric current switching device (relay, SSR: Solid State Relay, etc.) and charge request current according to the state of charge and charging time of the vehicle A microcontroller unit (MCU) 24 having a controllable current control module 25 and an RF module for controlling them, respectively, is provided and is predetermined according to a program embedded in the MCU 24. It works according to the scenario. The MCU 24 implements short-range wireless communication (Bluetooth, Zigbee, etc.) through an RF module, and is a portable or vehicle-mounted mobile communication terminal (smartphone, mobile phone) of a short-range wireless communication function by an RF buyer's RF module. , Including a PDA, a smart pad, and a tablet PC, hereinafter referred to simply as a mobile communication terminal) performs a power supply and a shut-off at the charging electrical outlet 100 for a charging request through short-range wireless communication with the 200.

2) A mobile communication terminal 200 mounted on a portable or vehicle of a user who wants to charge is an intelligent terminal (smartphone, mobile phone, PDA, smart pad, tablet PC, etc.) that supports a universal protocol such as Bluetooth or Zigbee. In addition to performing the near field communication function with the electrical outlet 100, a network (such as an Internet-dedicated line using a Wi-Fi or mobile communication network) 700 can be connected to a dedicated service server 400 and is currently available on the market. The terminal corresponds to this.

3) The mobile communication terminal application mounted on a portable or vehicle is a program that is installed and executed on the user's mobile communication terminal 200 such as a smart phone or a smart pad, and is provided in various versions depending on the type of mobile communication terminal. Charge request and progress through short-range wireless communication with the RF module installed in the electrical outlet 100, connected to the dedicated service server 400 online to check the charger identification ID of the electrical outlet 100 for charging, from the user Selects a charging fee, selects a payment method (credit card or mobile phone payment, gift certificate, points, etc.), requests a payment for the fee, and transfers the result of the dedicated service server 400 to the charging outlet for the request. It plays a role.

4) The dedicated service server 400 checks the charger identification ID of the electric outlet 100 for charging according to a request of an application installed in the mobile communication terminal 200 mounted on the portable or vehicle of the electric purchaser, and confirms whether it is a valid valid device. After the verification, the payment for the corresponding fee to the relevant payment institution server 500 using the information on the payment method (credit card, mobile phone number, bank transfer, gift certificate, points) received together with the purchase request of the electric buyer. Make a request. The approval result of the payment request is transmitted to the electric buyer and the contents are stored in the DB so that the electric buyer and the electric seller can inquire / confirm this later. As shown in FIG. 1, the charging electrical outlet 100 only performs short-range data communication with the mobile communication terminal 200 by a short-range wireless communication function, and is not connected to the network 700. It cannot be connected to or controlled by the dedicated service server 400. On the other hand, the mobile communication terminal 200, the user PC 600 and the payment institution server 500 are directly connected to the server by the network 700.

The communication between the charging electrical outlet 100, the application installed in the user's mobile communication terminal 200, the dedicated service server 400 is all encrypted and these are each having the same encryption code system and communicate and verify through the data communication Prevents the leakage of user's personal and financial information.

In the unmanned electricity sales system and unmanned electricity sales method of the present invention, since the electric buyer directly requests the payment without going through the electric seller using the charger identification ID of the pre-registered electric seller, the personal information of the electric buyer necessary for the payment is transferred to another person. You can prevent payments from leaking or contrary to the intention of the buyer.

The electric seller (charging electric outlet provider) and the electric buyer (electric vehicle charging applicant) subscribe to the dedicated service server 400 according to the present invention as a member in advance.

Charging electric outlet 100 of a near field communication function, a mobile communication terminal 200 mounted on a portable or vehicle of a near field communication function, and a dedicated application program operating in the mobile communication terminal 200, in conjunction with this program The unmanned electric sales system of the present invention consisting of a dedicated service server 400 and a server program operating as shown in FIGS. 2 and 3 performs electricity sales and payment while performing the following steps.

(1) The electric buyer (who wants to charge) is a portable mobile device capable of carrying out short-range wireless communication (Bluetooth, Zigbee, IR, etc.) that he carries or installed in a vehicle at the place where the electric outlet 100 for charging according to the present invention is installed. In the communication terminal (smartphone, mobile phone, PDA, smart pad, tablet PC, etc.) 200 to execute a pre-installed dedicated application program to perform the step of requesting the charge to the electrical outlet 100 for charging.

(2) The charging electrical outlet 100 receiving the charging request performs a step of transmitting its charger identification ID to the mobile communication terminal 200 that has made the charging request.

(3) The charging request mobile communication terminal 200 having received the charger identification ID performs the step of inquiring the information of the charger identification ID to the dedicated service server 400 of the present invention.

(4) The dedicated service server 400 searches for the charger identification ID and transmits the validity and various information (charge station location, unit price, discount, special sale information, etc.) of the charger identification ID to the charging request mobile communication terminal 200. Follow the steps.

(5) The charging request mobile communication terminal 200 having received the information displays the information to the user, and the desired charging amount (fee) and payment method (credit card, bank transfer, mobile phone payment, gift certificate, points, etc.) from the user. Receives the input (selection), and performs a payment request to the dedicated service server 400 using the charge corresponding to the charge amount and the charger identification ID information of the selected payment means and the charging outlet.

(6) According to the payment method selected by the user, the payment target institution is a company that performs payment of credit card companies, mobile carriers, banks (financial companies), gift certificates, points, etc., and the dedicated service server 400 operates its own points. When the self-operation point is selected, the payment is made by subtracting its own points without making a separate payment request, and the dedicated service server 400 receiving the payment request is the charger identification ID, the requested payment amount, and payment. Using the means information, the step of deducting points or making a payment request to a payment target institution is performed.

(7) performing a step of being notified of the settlement result for the settlement request from the settlement target institution;

(8) The dedicated service server 400 stores the payment result in a DB and sends the payment result to the charging request mobile communication terminal 200 as an encrypted charging approval code.

(9) Charge request The mobile terminal 200 decodes the charge approval code and informs the user (electrical buyer) if the payment result is unsuccessful and ends the unattended electric sales request according to the present invention. The charging approval code is transmitted to the charging electrical outlet 100.

(10) The charging electrical outlet 100 receiving the charge approval code analyzes the charge approval code and controls the power if the previously approved approval code to supply electricity as much as the payment is approved, and the previously charged charge. If it is not an approval code, the power supply is blocked.

(11) If the charge approval code is not a pre-promised charge approval code, transmits a rejection signal for the charge request, and if the charge approval code is a pre-promised charge approval code, moves the charge request when the supply of power as much as the payment is completed. The charging completion signal is transmitted to the communication terminal 200.

(12) The charging request mobile communication terminal 200 transmits the charging completion signal to the dedicated service server 400.

(13) The dedicated service server 400 receives the service completion signal, stores the service completion in the DB, transmits the DB update completion signal to the charging request mobile communication terminal 200, and receives the DB update completion signal. The requesting mobile terminal 200 notifies the user (all purchasers) that the charging and the payment has been completed normally and terminates the charging service.

(14) If the user (electrical purchaser) wants to stop charging before completion of charging due to special circumstances, when the user (electrical purchaser) presses the charging end menu on the charging request mobile communication terminal 200, the charging request mobile communication terminal In step 200, the charge cancel signal is transmitted to the charging electrical outlet 100.

According to the charge cancel request, the charging electrical outlet 100 immediately stops supplying power, calculates the amount charged up to that point along with the stop signal, and transmits the amount to the charge request mobile communication terminal 200. Perform the steps.

In addition, even when the plug inserted into the charging electric outlet 100 is not removed, the charge cancel request is similar to the above. ) Is transmitted along with the stop charge signal.

(16) Charge request The mobile terminal 200 transmits the charged amount and the charge received together with the charge stop signal to the dedicated service server 400.

(17) The dedicated service server 400 receives the charge stop signal and the charged amount and charge to deduct the point or request an update of an existing payment from a payment target institution.

(18) The dedicated service server performs a step of receiving a result of the update request from the payment target institution.

The dedicated service server 400 records the payment update in the DB and transmits the DB update completion signal to the charging request mobile communication terminal 200.

The charging request mobile communication terminal 200 having received the DB update completion signal notifies the user that the charging and settlement is completed, and terminates the charging service.

MCU and portable mobile communication terminal 200 having such a short-range wireless communication function, as well as a dedicated server having a subscription function and DB management, point management, payment with financial institutions can be easily implemented with the devices and technologies currently widely used. Can be.

This is shown in the program flow chart between the mobile communication terminal 200, the charging electric outlet 100, the dedicated service server 400 mounted on the user's portable or vehicle as shown in FIG.

Referring to Figures 3 and 4, the method of selling electricity by the charging electrical outlet 100 in more detail as follows.

The charging electrical outlet 100 has an external AC input terminal 21 that can receive power. The charging electrical outlet 100 converts the alternating current into direct current by the AC / DC converter 22 in order to operate the other circuit embedded in the charging electrical outlet 100, the charging service due to external interruption during charging, etc. If it should be stopped to charge the charging battery 23 for supplying power for a predetermined time to the circuit embedded in the charging electrical outlet 100. When the micro control unit (MCU) 24 receives the charge request signal from the charge request mobile communication terminal 200, it transmits its charger identification ID to the charge request mobile communication terminal 200, and receives the charge approval code. The validity of the approval code is verified to determine whether the charging service is in progress. The micro control unit (MCU) 24 supplies power through the power management and switching unit 25 when the charge approval code received from the charge request mobile communication terminal 200 is valid, and charge request mobile communication terminal 200. It transmits a supply approval signal, and if the received charge approval code is not valid, the power supply is cut off and the supply request signal to the charging request communication terminal 200 transmits.

In addition, the micro control unit (MCU) 24 transmits a charge refusal signal when the vehicle cannot be charged due to an external short circuit, or transmits the amount of charge up to that point when the vehicle is being charged and terminates the service. The power management and switching unit 25 supplies or cuts off electricity received from the outside to the vehicle supply outlet (AC output terminal) under the control of the micro control unit (MCU) 24, and cuts off the over current when it flows. The amount of power supplied is continuously measured and sent to the micro control unit 24. In addition, the power management and switching unit 25 notifies the control unit when the charging power plug of the vehicle is accidentally removed, rather than a normal request during charging. In addition, the power management and switching unit 25 supplies power to the charging plug of the vehicle through an outlet (AC output terminal) under the control of the micro control unit (MCU) (24).

As shown in FIG. 4, the charging electrical outlet 100 includes various devices capable of switching electricity (relay, SSR, solid state relay, etc.) (AC switch) and the charging state and charging time of the electric vehicle. Power management and switch unit 25 including current controller (current control / measurement and overcurrent protection) capable of controlling the current according to the circuit, RF module and microprocessor (μ-processor) for controlling them By a microcontroller unit (MCU) 24 or the like.

The mobile communication terminal 200 mounted on a portable or vehicle having a short-range wireless communication function for a charging request in the electric outlet 100 for charging is being sold at home and abroad, and the electric outlet 100 for charging and the mobile communication terminal ( A dedicated application program operating at 200) is provided to an electric seller and an electric buyer who have previously subscribed to the unmanned electric sales system of the present invention.

As shown in FIG. 5, the mobile communication terminal application includes (a-1) a login step of inputting a charger identification ID and a password to authenticate a legitimate member, and (a-2) a charging method selection (time or fee) for a charging request. ) And a charging service step of performing a charging function by selecting a payment method (credit card, mobile phone payment, account transfer, gift certificate, point), and (a-3) a charging station near you or a low-cost charging station. A search service step of searching for a suitable charging station, performing a search function for searching and displaying a charging history, and (a-4) displaying charging progress during charging and performing a function such as pausing or terminating by a user. Perform the charge control step.

6 is an example of implementing the application program.

Dedicated service server 400 is composed of a menu for supporting / managing the functions of the electric seller service and the electric buyer service, as shown in detail, as shown in Figure 7, (b-1) the electric seller receives a membership request Performing a membership registration by specifying a charger identification ID, personal information (sales company information), an account number for receiving a payment, a selling price, a discount condition, and a discount target; and (b-2) the member. Membership due diligence and registration steps to determine approval by reviewing on-site due diligence and review of documents to approve the request for subscription, and (b-3) the current status of sales information of the electric seller. It provides electricity seller services, which consists of providing various statistics and retrieval conditions and outputting receipts. In addition, (c-1) receiving the request of membership of the electric buyer to use the unmanned electricity sales system of the present invention to input the personal information, etc. in order to process this, and to execute membership registration and registration, (c- 2) With the function of registering a method for payment and information according to the charging execution, credit card number, withdrawal account number, mobile payment number for micropayment, available gift certificates, points and advance use of the unmanned electric sales system of the present invention Withdrawal method registration step to register a variety of points, etc., and (c-3) check the purchase history for the charging performance through the unmanned electricity sales system of the present invention after joining the membership, and look up the statistical data for various conditions And, it performs the buyer server consisting of a transaction history confirmation step that can output a receipt.

Such a system is not limited to selling electric vehicles, but is generally an unmanned electric sales system capable of selling electric power for all devices requiring power supply.

21: AC input terminal 22: AC / DC converter
23 charger 24 micro control unit
25: power management and switching 36: AC output terminal
100: charging electrical outlet 200: mobile communication terminal
300: electric vehicle 400: dedicated service server
500: Payment Authority Server 600: User PC
800, 900: dedicated line

Claims (2)

A charging electrical outlet that is given a unique charger identification ID, and has an RF module for short-range wireless communication to transmit the charger identification ID to a mobile communication terminal and receive a charge approval code from the mobile communication terminal;
It is connected to the following dedicated service server through a communication network, and is provided with an RF module for short-range wireless communication, receives a charger identification ID from the electric outlet for charging, transmits to the following dedicated service server, and sends a charge approval code from the dedicated service server. A mobile communication terminal for receiving and transmitting to the charging electrical outlet;
A dedicated service server for verifying whether a valid device is authenticated by checking a charger identification ID of the electric outlet for charging, receiving payment information by the mobile communication terminal, and transmitting a charge approval code to the mobile communication terminal; Unattended electric sales system for charging an electric vehicle comprising a.
It is provided with a charging electrical outlet that is given a unique charger identification ID, a mobile communication terminal and a dedicated service server connected to each other by a communication network,
Making a charging request to the charging electrical outlet to the mobile communication terminal;
Transmitting the charger identification ID by the charging electrical outlet receiving the charging request;
Transmitting, by the mobile communication terminal receiving the charger identification ID, the charger identification ID to the dedicated service server;
Determining, by the dedicated service server, information of the corresponding charger identification ID to determine validity, receiving payment information from the mobile communication terminal, and then transmitting a charge approval code to the mobile communication terminal;
Transmitting, by the mobile communication terminal, a charging approval code received from the dedicated service server to the charging electric outlet;
The charging electric outlet receives a charge approval code from the mobile communication terminal and analyzes the charge approval code to supply electricity as much as the payment is approved; Unmanned electric sales method for charging an electric vehicle to carry out.

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