KR20160050976A - System and method for authenticating battery of electric vehicle using battery swapping station - Google Patents

Abstract

The present invention relates to a system for monitoring an electric vehicle and a method thereof. More particularly, the present invention relates to a system and a method for authenticating a battery of an electric vehicle using a battery swapping station which performs charging on authenticated genuine products, after it is authenticated whether batteries to be charged are genuine products when the batteries to be charged are connected in the battery swapping station for charging the battery of the electric vehicle. The system comprises at least one battery swapping part; and a battery authentication server part.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to an electric vehicle battery authentication system using a battery exchange station,

The present invention relates to an electric vehicle monitoring system and method, and more particularly, to an electric vehicle monitoring system and method for verifying whether a battery to be charged is a genuine authenticated battery when a battery to be charged is connected at a battery exchange station for charging a battery of an electric vehicle, And more particularly, to an electric vehicle battery authentication system and method using a battery exchange station that performs charging for a battery.

Recently, development of electric vehicles such as electric cars and electric buses has been rapidly accelerated due to environmental pollution and depletion of fossil fuels. Especially, buses and taxis, which are public transportation means, are being preferentially applied.

In addition, in the case of electric vehicles using batteries, particularly electric buses, it is necessary to periodically monitor the status of electric buses, including battery conditions, and to prevent emergency situations such as battery discharge, vehicle breakdown, Electric vehicle monitoring system is being constructed.

1 is a schematic view showing a configuration of a general electric vehicle monitoring system.

1, an electric vehicle monitoring system includes an electric vehicle, for example, an electric bus (eBUS) 10, a battery exchange unit 20 installed in a battery swapping station (BSS) And an electric bus monitoring unit 30.

The battery exchange station in which the battery exchange unit 20 is constituted may be configured in a bus stop on an electric bus route considering a capacity of a garage, a battery capacity, or a separate battery exchange station when the electric vehicle is an electric bus. When at least one battery is connected to the battery exchange unit 20, the charging current is supplied to the connected battery to charge the battery.

The electric bus monitoring unit 30 monitors the state of the electric vehicle including the state of the battery by connecting with the electric vehicle 10 entering the battery exchange station BSS equipped with the battery exchange unit 20 by wire or wireless, And monitors the state of the battery connected to be charged in the exchange portion 20. [

Particularly, one of the key components of an electric vehicle is a battery that supplies an energy source to an electric vehicle. Specifically, in order to prevent the electric vehicle from being stopped due to the discharge of the battery during operation of the electric vehicle, it is necessary to monitor the state of the battery.

In addition, in order to accurately measure the state of the monitored battery, it is necessary to use a certified genuine battery capable of communicating with the electric bus monitoring unit 30 by a predetermined protocol.

In addition, there is a demand for use of a genuine battery to which a stable power supply and various protection circuits capable of operating the battery stably are applied.

However, electric vehicle owners are increasingly using unoccupied fixtures batteries, which are expensive or inexpensive, instead of genuine batteries because of the high cost of genuine batteries. There is a risk that the equipment battery may not be able to supply a stable power source because there is no stabilizing circuit for stably driving the circuit, or there is a risk that the battery is overheated due to the application of a part of the stabilizing circuit.

In addition, when a fixture battery is used, there is a problem that the battery and the electric vehicle monitoring system can not be monitored because the state of the fixture battery can not be measured.

In addition, the electric vehicle monitoring system can not prevent the installation of the equipment battery because the battery mounted in the electric vehicle can not recognize whether it is a spare battery or a genuine battery even if a monitor battery is installed.

Therefore, it is required to certify whether the battery mounted on the electric vehicle is a non-furnished battery or a genuine battery, and to certify a battery which can use only a genuine battery.

Published Japanese Patent Application No. 10-2014-0078623 (June 25, 2014)

SUMMARY OF THE INVENTION It is therefore an object of the present invention to provide a battery exchange station for charging a battery of an electric vehicle using a battery exchange station for verifying that a battery to be charged is a genuine battery that is to be charged when a battery to be charged is connected, And an electric vehicle battery authentication system and method.

According to another aspect of the present invention, there is provided an electric vehicle battery authentication system using a battery exchange station, comprising: a battery management system (BMS) having battery authentication information; At least one battery exchange unit for transmitting a battery authentication request signal including the battery authentication information and authenticating that the battery is a genuine battery according to received authentication result information; And battery authentication information for genuine batteries. The control unit detects battery authentication information included in reception of a battery authentication request signal from the battery exchange unit, detects battery authentication information included in the battery authentication information, And a battery authentication server unit for providing authentication result information to the battery exchange unit after authentication of the battery is performed.

The battery exchange unit may supply a charging current to the battery when the battery is determined to be a genuine battery.

The system includes: a battery management unit configured to request and receive battery authentication information for the battery from the battery authentication server unit during programming of the battery management system configured in the battery after the produced battery is connected; The battery authentication server unit generates battery authentication information unique to each battery to be produced when the battery authentication information is requested from the battery production unit and provides the generated battery authentication information to the battery production unit, .

Wherein the battery exchange unit includes: a battery connection unit connected to a battery to be charged and having a charging terminal for supplying a charging current; A battery authentication event monitoring unit monitoring whether a battery authentication event occurs; A battery authentication request unit for acquiring battery authentication information from the battery through the battery connection unit when the battery authentication event is generated through the battery authentication event monitoring unit and transmitting a battery authentication request signal including battery authentication information to the battery authentication server unit; A battery authentication result receiving unit for receiving a battery authentication result signal including battery authentication result information, which is battery authentication result information, in response to transmission of the battery authentication request signal, and then outputting the battery authentication result information; A battery authentication success determination unit for determining whether the battery is authentic based on whether the authentication result of the battery authentication result information is authentication success or not and outputting a charge start signal if the battery is a genuine battery; And a charging unit that receives the charging start signal and supplies a charging current to the battery through the battery connection unit.

The battery authentication server unit includes a genuine battery DB storing battery authentication information for genuine batteries; And a battery authentication request event monitoring unit for monitoring whether a battery authentication request signal is received from at least one or more battery exchange units. When the battery authentication request signal is received through the battery authentication request event monitoring unit, An authenticating unit for authenticating whether the battery is a genuine battery by determining whether the battery authentication information input from the authentication information detecting unit is battery authentication information registered in the genuine battery DB, And a battery authentication processing unit for providing the battery authentication result information determined by the battery authentication result providing unit to the battery exchange unit.

The battery production unit may include a battery connection unit to which at least one battery is connected and includes a program connection terminal; A battery programming event detection unit for checking whether a battery programming event is generated; An authentication information request unit for transmitting a battery authentication request signal for requesting battery authentication information including battery identification information corresponding to each of the batteries connected to the battery connection unit when a battery programming event is detected through the battery program event detection unit; An authentication information receiver for receiving and outputting battery authentication information corresponding to each of the battery identification information in response to the battery authentication request signal; And a battery programming unit for recording battery authentication information corresponding to the battery management system of the battery through the battery connection unit, the battery authentication unit receiving the battery authentication information from the battery production unit, Generates and assigns battery certification generation information corresponding to each battery identification information included in the battery certification request signal upon receipt of the request signal, and generates and assigns battery certification information corresponding to each battery identification information, And an authentication information registering unit that registers the genuine battery as a genuine battery.

According to another aspect of the present invention, there is provided a method for authenticating an electric vehicle using a battery exchange station, the method comprising: acquiring battery authentication information from a battery management system of the battery when a battery authentication event occurs, A battery authentication requesting step of requesting battery authentication by transmitting a battery authentication request signal including the battery authentication information to a battery authentication server unit; And the battery authentication server detects if the battery authentication request signal is received while monitoring whether the battery authentication request signal is received, detects the included battery authentication information, compares the battery authentication information with previously registered battery authentication information, And a battery activation process of authenticating the authentication result information to the battery exchange unit.

And a battery charging step of supplying the charging current to the battery if the battery requested by the battery exchange unit is a genuine battery according to the authentication result information received from the battery authentication server unit.

The method includes the steps of: when a battery production unit detects a programming event for the battery after connecting at least one battery, transmits a battery authentication information request signal including battery identification information of the battery to the battery authentication server unit to request registration of the battery Battery registration request process; Wherein the battery authentication server generates battery certification generation information for each battery identification information included in the battery certification information request signal, stores the generated battery certification information in the genuine battery DB, registers it as a genuine battery, A battery registration step of transmitting battery authentication information including battery authentication creation information; And recording the battery authentication information in the battery having the corresponding battery identification information.

The battery authentication request process may include: monitoring a battery authentication event to monitor whether a battery authentication event occurs after connection of the battery; An authentication information obtaining step of obtaining battery authentication information from the battery when a battery authentication event occurs; And an authentication request step of generating battery authentication request information including the generated battery authentication information and transmitting the generated battery authentication request information to the battery authentication server unit in the battery authentication request signal.

The battery activation process may include: monitoring a battery certification request event monitoring whether a battery certification request signal is received from the battery exchange unit; A battery authentication information detection step of detecting battery authentication information included when a battery authentication request signal is received; An authentication step of comparing the detected battery authentication information with battery authentication information of a genuine battery registered in advance and authenticating that the battery of the detected battery authentication information is a genuine product; And an authentication result notifying step of providing authentication result information according to the authentication execution to the battery exchange unit.

Wherein the genuine battery charging step includes an authentication result reception monitoring step of monitoring whether the battery exchange unit receives an authentication result notification from the battery authentication server unit; An authentication result analysis step of determining whether the authentication result information is authentication success if the authentication result information is received; And a charging step of controlling the charging unit to supply charging current to the battery corresponding to the battery identification information of the connected battery authentication information if the authentication is successful.

In the battery certification request process, the battery exchange unit transmits a battery certification request signal including battery certification information to the battery certification server unit. The battery certification process is performed by the battery certification server unit, Providing a battery authentication pattern information when a battery authentication request is generated when an authentication request signal is received; A battery exchange key generating step of generating a battery authentication key based on the battery authentication generation information and the battery authentication pattern information and transmitting the battery identification information and the battery authentication key in the battery authentication information; And the battery authentication server unit compares the battery authentication pattern information and the battery authentication information received from the battery requesting battery to the battery identification information of the battery identification information included in the battery identification request signal, And a battery authentication key authentication step of comparing the received battery authentication key with the verification battery authentication key to perform authentication.

The present invention relates to a battery exchange station for charging and replacing a battery, which determines whether the battery is a genuine battery when connecting a battery for charging the battery, .

The present invention can prevent and limit the use of the equipment battery as described above, so that it is possible to prevent breakage of the electric vehicle due to explosion of the battery, surprise and injury of the occupant, It is possible to supply a stable power source, thereby preventing the failure of other devices.

1 is a diagram showing a configuration of a general electric vehicle monitoring system.
2 is a view showing an electric vehicle battery authentication system using a battery exchange station according to the present invention.
3 is a diagram illustrating the configuration of a battery production unit of an electric vehicle battery authentication system according to the present invention.
4 is a diagram illustrating a configuration of a battery authentication server unit of an electric vehicle battery authentication system according to the present invention.
5 is a diagram showing the configuration of a battery exchange unit of an electric vehicle battery authentication system according to the present invention.
6 is a flowchart illustrating a method of registering a genuine battery for authenticating an electric vehicle using a battery exchange station according to the present invention.
7 is a flowchart illustrating a method of authenticating an electric vehicle battery using a battery exchange station according to a first embodiment of the present invention.
8 is a flowchart illustrating a method of authenticating an electric vehicle battery using a battery exchange station according to a second embodiment of the present invention.

Hereinafter, a configuration and operation of a battery authentication system using a battery exchange station according to the present invention will be described with reference to the accompanying drawings, and a battery authentication method using a battery exchange station in the system will be described.

2 is a view showing an electric vehicle battery authentication system using a battery exchange station according to the present invention.

Referring to FIG. 2, an electric vehicle battery authentication system using a battery exchange station according to the present invention includes a battery production unit 100, a battery authentication server unit 200, and a battery exchange unit 300.

The battery production unit 100 may be configured such that the produced battery 1 is connected to the battery authentication server unit 200 when the control program is programmed in a battery management system (BMS) Requests battery authentication information for each battery to be programmed and receives battery authentication information unique to each battery from the battery authentication server unit 200 and records battery authentication information in the corresponding battery.

In the above description, the battery authentication server unit 200 generates battery authentication information. However, the battery production unit 100 may generate battery authentication information, write the battery authentication information to each battery, and provide the battery authentication information to the battery authentication server unit 200 There will be.

When the battery authentication information request signal is received from the battery production unit 100, the battery authentication server unit 200 generates battery authentication generation information for each of the battery identification information included in the battery authentication information request signal, And battery authentication generation information generated in correspondence with the battery identification information as battery authentication information, and registers the battery having the battery identification information as a genuine battery. The battery authentication information may be unique and randomly generated battery authentication key or may be seed information for generating a battery authentication key by reflecting battery authentication pattern information.

The battery authentication server unit 200 has battery authentication information for a plurality of genuine batteries as described above. Upon receiving a battery authentication request signal including battery authentication information from the battery exchange unit 300, Performs authentication according to the registered battery authentication information, and provides the authentication result information to the battery exchange unit (300).

The battery exchange unit 300 is configured in the battery exchange station BSS. The battery exchange unit 300 includes charging means for charging at least one battery by connecting the battery. Acquires battery authentication request information including battery authentication information or encrypted battery authentication information acquired according to the embodiment, and provides the battery authentication request information to the battery authentication server unit 200 in the battery authentication request signal, And when it is determined that the battery to be charged is a genuine battery, charging of the battery authenticated by the genuine battery is started. The acquired battery authentication information includes battery identification information and battery authentication creation information, and the encrypted battery authentication information includes battery identification information, the battery authentication creation information, and battery authentication pattern information provided from the battery authentication server 200 Lt; RTI ID = 0.0 > a < / RTI > The battery exchange unit 300 may be configured in the electric vehicle to perform the above-described operation upon connection of the battery.

In the latter case, the battery authentication server unit 200 also generates a verification battery authentication key according to the battery authentication pattern information provided to the battery exchange unit 300 and the battery authentication generation information received from the battery exchange unit 300 It is necessary to perform authentication according to whether or not the received battery authentication key matches the received battery authentication key.

3 is a diagram illustrating the configuration of a battery production unit of an electric vehicle battery authentication system according to the present invention. The detailed configuration and operation of the battery producing unit 100 will be described with reference to FIG.

The battery production unit 100 includes a battery connection unit 110, a battery programming event detection unit 120, an authentication information acquisition unit 130, and a battery programming unit 140.

The battery connection unit 110 is provided with connection means to which a plurality of batteries 1 can be connected and is connected to a communication terminal (not shown) of the battery 1 capable of performing data communication with a BMS (not shown) And outputs a connection signal when the battery 1 is connected.

The battery programming event detection unit 120 monitors whether a battery programming event is generated and notifies the authentication information acquisition unit 130 that a battery programming event has occurred when a battery program event occurs. The battery programming event may be generated when a connection of the batteries 1 is detected through the battery connection unit 110 or when a battery programming command is input by a programmer or an administrator.

When the battery programming event is detected through the battery programming event detection unit 120, the authentication information acquisition unit 130 acquires battery identification information from the batteries through the battery connection unit 110, acquires battery identification information including battery identification information, An authentication information request unit 131 for transmitting a request signal to the battery authentication server unit 200 and a battery authentication information receiving unit for receiving the battery authentication information received from the battery authentication server unit 200 in response to the battery authentication information request signal, And an authentication information receiving unit 132 for receiving the authentication information.

The battery programming unit 140 receives the battery authentication information for each battery from the authentication information receiving unit 132 and records the battery authentication information in each of the connected batteries. The battery authentication information may be stored in a memory area of the BMS.

4 is a diagram illustrating a configuration of a battery authentication server unit of an electric vehicle battery authentication system according to the present invention. The configuration and operation of the battery authentication server unit 200 will be described with reference to FIG.

The battery authentication server unit 200 includes a battery authentication information registration unit 210, a battery authentication processing unit 220, and a genuine battery DB 230.

The battery authentication information registration unit 210 includes an authentication information request reception unit 211, a battery authentication generation information generation unit 212, an authentication information generation unit 213 and an authentication information provision unit 214.

The authentication information request receiving unit 211 monitors whether the battery authentication information request signal is received from the battery production unit 100 and detects at least one or more battery identification information included in the battery authentication information request signal upon receiving the battery authentication information request signal And notifies it to the battery certification generation information generation unit 212. [

The battery authentication generation information generation unit 212 receives battery identification information from the authentication information request reception unit 211, generates unique battery authentication generation information corresponding to each battery identification information, maps the generated battery authentication information to corresponding battery identification information, And outputs it to the information generation unit 213. The battery authentication generation information may be a unique and randomly generated battery authentication key or may be seed information for generating a unique battery authentication key by reflecting battery authentication pattern information to be described later. The technique of generating a battery authentication key, which is a security key, using the battery authentication pattern information, which is a parameter of the seed, is a well-known technology in the technical field and communication technology, and a detailed description thereof will be omitted.

The authentication information generation unit 213 generates and outputs battery authentication information including battery identification information and battery authentication generation information output from the battery authentication generation information generation unit 212. [

The authentication information providing unit 214 stores the generated battery authentication information as the genuine battery information in the genuine battery DB 230 and registers it. Also, the authentication information providing unit 214 provides the generated battery authentication information to the battery producing unit 100.

The battery authentication processing unit 220 includes a battery authentication request event monitoring unit 221, an authentication information detection unit 222, an authentication unit 225, and an authentication result providing unit 226.

The battery certification request event monitoring unit 221 monitors whether a battery certification request signal is received from the battery exchange unit 300. When the battery certification request signal is received, the battery certification request event monitoring unit 221 transmits the battery certification request information to the authentication information detection unit 222 Output.

The authentication information detection unit 222 includes a battery authentication generation information detection unit 223 for detecting and outputting battery authentication generation information from the battery authentication request information and a battery identification information detection unit 224 for detecting and outputting battery identification information.

The authentication unit 225 compares the battery identification information and the battery authentication information output from the authentication information detection unit 222 with the battery authentication information of the genuine batteries stored in the genuine battery DB 230, And outputs a result of the authentication to the authentication result providing unit 226. [

The authentication result providing unit 226 provides the authentication result information input from the authentication unit 225 to the battery exchange unit 300 that has transmitted the battery authentication request signal.

5 is a diagram showing the configuration of a battery exchange unit of an electric vehicle battery authentication system according to the present invention. Hereinafter, the configuration and operation of the battery exchange unit 300 will be described with reference to FIG.

The battery exchange unit 300 includes a battery connection unit 310, a battery certification event monitoring unit 320, a battery certification request unit 330, a battery certification result reception unit 340, a battery certification success determination unit 350, ).

The battery connection unit 310 includes connection means for connecting at least one battery, a charging terminal that outputs a battery connection signal when the battery is connected and can be supplied to the connected battery 1 by receiving a charging current, And a communication terminal capable of performing data communication with the BMS of the base station 1.

The battery authentication event monitoring unit 320 checks whether a battery authentication event is generated, and notifies the battery authentication request unit 330 of detection of a battery authentication event when a battery authentication event occurs. The battery authentication event may be generated by a battery connection signal output from the battery connection unit 310 and a battery charge command by the charge manager.

When the detection of the battery authentication event is notified from the battery authentication event monitoring unit 320, the battery authentication request unit 330 acquires the battery authentication information from the battery 1 connected through the communication terminal of the battery connection unit 310, A battery authentication request information generating unit 331 for generating and outputting battery authentication request information including the acquired battery authentication information, and a battery authentication request information transmitting unit 330 for transmitting the battery authentication request information to the battery authentication server unit 200 And a battery authentication request information transmission unit 332. [ The battery authentication request information may include battery exchange station information including identification information of the battery exchange unit 300, and the like.

The battery authentication result receiving unit 340 checks whether the authentication result information for the battery authentication request signal transmitted through the battery authentication request unit 330 is received. When the authentication result information is received, .

When the authentication result information is input from the battery authentication result receiving unit 340, the battery authentication success determination unit 350 determines whether the battery activation has been successfully performed. . The battery authentication success determination unit 350 may display whether an authentication failure occurs in an authentication failure state through a display means (not shown), and may indicate success or failure through the display means upon successful authentication.

The charging unit 370 is connected to a source power supply (not shown) to supply the charging current to the charging terminal of the connection means to which the battery failed to authenticate the battery when the charging shutoff signal is input from the battery authentication success determination unit 350 And when the charging signal is inputted, charging current is supplied to the battery 1 through the charging terminal to start charging. The charging unit 370 may also be configured to monitor the charging state of each battery 1 to automatically shut off the supply of charging current to the battery 1 upon full charging.

6 is a flowchart illustrating a method of registering a genuine battery for authenticating an electric vehicle using a battery exchange station according to the present invention.

Referring to FIG. 6, the battery production unit 100 checks whether a battery programming event is generated (S111).

At this time, when a battery programming event occurs, the battery production unit 100 collects battery identification information from each of the batteries connected through the battery connection unit 110 (S113).

When battery identification information on the connected batteries 1 is collected, the battery production unit 100 transmits a battery authentication information request signal including the collected battery identification information to the battery authentication server unit 200 (S115).

The battery authentication information registration unit 210 of the battery authentication server unit 200 checks whether a battery authentication information request signal is received from the battery production unit 100 and checks whether a request for battery authentication information is generated (S117).

The battery certification information registration unit 210 of the battery certification server unit 200 receives the battery certification information request signal from the battery production unit 100 and outputs the battery certification information to the battery certification information generation unit 212, Battery-generated battery certification information is generated (S119).

When the battery certification information is generated, the battery certification information registration unit 210 generates and stores the battery certification information for each battery, and registers the batteries corresponding to the battery identification information included in the battery certification information as a genuine battery (S121).

When registration of the genuine battery is completed, the battery authentication information registration unit 210 transmits the battery authentication information to the battery production unit 100 (S123).

The battery production unit 100 receiving the battery authentication information records the battery authentication information in each of the batteries connected to the battery connection unit 110 through the battery programming unit 140 at step S125.

FIG. 7 is a flowchart illustrating an electric vehicle battery authentication method using the battery exchange station according to the first embodiment of the present invention, wherein the battery authentication information included in the battery authentication information is a battery authentication key.

First, the battery exchange unit 300 checks whether a battery authentication event is generated (S211).

When the battery authentication event occurs, the battery exchange unit 300 collects battery authentication information from the battery 1 connected to the connection unit 310 through the connection unit 310, and transmits battery authentication request information including the collected battery authentication information And sends it to the battery authentication server unit 200 in the battery authentication request signal (S215).

The battery authentication processing unit 220 of the battery authentication server unit 200 checks whether a battery authentication request signal is received from any of the battery exchange units 300 through the battery authentication request event monitoring unit 221 at step S217.

At this time, when the battery authentication request signal including the battery authentication request information is received, the battery authentication server unit 200 detects battery identification information and battery authentication generation information included in the battery authentication request information of the battery authentication request signal (S219 ).

When the battery identification information and the battery authentication generation information are detected, the battery authentication server unit 200 compares the detected battery authentication generation information with the battery authentication generation information of the genuine battery authentication information registered in advance, (Failure and success) according to the authentication success or failure (S223), and transmits the authentication result information (failure, success) to the battery exchange unit 300 (S225, S227).

The battery exchange unit 300 monitors whether the authentication result information is received after transmitting the battery authentication request signal including the battery authentication request information (S229). When the authentication result information is received, the battery exchange unit 300 determines whether the authentication result information is authentication success information Information (S231).

As a result of the determination, if the authentication is unsuccessful, the charging current is not supplied to the battery of the battery identification information (S233). If the authentication is successful, the charging current is supplied to the battery of the battery identification information through the battery connection unit 310 to start charging (S335).

FIG. 8 is a flowchart illustrating an electric vehicle battery authentication method using a battery exchange station according to a second embodiment of the present invention. Referring to FIG. 8, A different battery authentication key is generated for each authentication and transmitted to the battery authentication server unit 200 to request authentication.

When the battery authentication event occurs (S311), the battery exchange unit 300 generates battery authentication request information including battery authentication information, and then transmits the battery authentication request information to the battery authentication server unit 200 (S313, S315). In the second embodiment, only the battery identification information is included in the battery authentication information included in the battery certification request information.

 The battery authentication server unit 200 monitors whether a battery authentication request signal is received from any of the battery exchange units 300 in step S317. When the battery authentication request signal is received from the battery exchange unit 300, To the battery exchange unit 300 (S319).

Upon receiving the battery authentication pattern information, the battery exchange unit 300 generates the battery authentication key by reflecting the battery authentication pattern information included in the battery authentication information included in the battery authentication information (S321) A battery authentication request signal including battery authentication information including an authentication key is transmitted to the battery authentication server unit 200 to request authentication (S323).

Then, the battery authentication server unit 200 transmits the battery authentication pattern information provided to the battery exchange unit 300 to the battery authentication generation information stored in the genuine battery DB 230 with respect to the battery identification information included in the battery authentication information And the verification battery authentication key is generated (S327).

When the verification battery authentication key is generated, the battery authentication server unit 200 compares the received battery authentication key with the generated verification battery authentication key to perform authentication based on whether the battery verification key is matched (S329) It is determined whether it is a failure (S331).

The subsequent steps S333 to S341 are the same as S225 to S233 in Fig. 7, and therefore the description thereof will be omitted.

While the present invention has been described with reference to exemplary embodiments, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, is intended to cover various modifications and equivalent arrangements included within the spirit and scope of the appended claims. It will be easily understood. It is to be understood that the invention is not limited to the disclosed embodiments, but, on the contrary, it is intended to cover various modifications within the scope of the appended claims.

100: Battery production part 110: Battery connection part
120: Battery programming event detection unit
130: Authentication information acquisition unit 131: Authentication information request unit
132: Authentication information receiving unit 140: Battery programming unit
200: Battery authentication server unit 210: Battery authentication information registration unit
211: authentication information request reception unit 212: battery authentication generation information generation unit
213: authentication information generating unit 214:
220: Battery authentication processing unit
221: battery authentication request event monitoring unit
222: authentication information detection unit 223: battery authentication generation information detection unit
224: Battery identification information detection unit 225:
226: authentication result provider 230: genuine battery DB
300: battery exchange unit 310: battery connection unit
320: Battery certification event monitoring unit 330: Battery certification request unit
331: Battery certification request information generation unit 332: Battery certification request information transmission unit
340: Battery authentication result reception unit 350: Battery authentication success determination unit
370:

Claims (13)

When a battery authentication event by connection of a battery to be charged including a battery management system (BMS) having battery authentication information occurs, transmits a battery authentication request signal including the battery authentication information, At least one battery exchange unit for authenticating that the battery is a genuine battery; And
Wherein the control unit detects the battery authentication information included in the battery authentication request signal received from the battery exchange unit and transmits the battery authentication information to the battery And a battery authentication server unit for providing the authentication result information to the battery exchange unit after performing the authentication for the battery exchange station.
The method according to claim 1,
Wherein the battery exchange unit supplies the charging current to the battery when the battery is determined to be a genuine battery.
The method according to claim 1,
A battery producing unit for requesting and receiving battery authentication information about the battery from the battery authentication server unit during programming of the battery management system constituted by the battery after the produced battery is connected and recording the received battery authentication information in the battery, Further comprising:
Wherein the battery authentication server unit generates battery authentication information unique to each battery to be produced when the battery authentication information is requested from the battery production unit and provides the generated battery authentication information to the battery production unit, Battery certification system.
The method according to claim 1,
The battery exchange unit
A battery connecting part connected to a battery to be charged and having a charging terminal for supplying a charging current;
A battery authentication event monitoring unit monitoring whether a battery authentication event occurs;
A battery authentication request unit for acquiring battery authentication information from the battery through the battery connection unit when the battery authentication event is generated through the battery authentication event monitoring unit and transmitting a battery authentication request signal including battery authentication information to the battery authentication server unit;
A battery authentication result receiving unit for receiving a battery authentication result signal including battery authentication result information, which is battery authentication result information, in response to transmission of the battery authentication request signal, and then outputting the battery authentication result information;
A battery authentication success determination unit for determining whether the battery is authentic based on whether the authentication result of the battery authentication result information is authentication success or not and outputting a charge start signal if the battery is a genuine battery; And
And a charging unit that receives the charging start signal and supplies a charging current to the battery through the battery connection unit.
The method according to claim 1,
The battery authentication server unit,
A genuine battery DB storing battery authentication information for genuine batteries; And
A battery authentication request event monitoring unit that monitors whether a battery authentication request signal is received from at least one battery exchange unit,
An authentication information detector for detecting and outputting battery authentication information from the battery authentication request signal when the battery authentication request signal is received through the battery authentication request event monitoring unit,
An authenticating unit for authenticating whether the battery is a genuine battery by determining whether the battery authentication information input from the authentication information detecting unit is battery authentication information registered in the genuine battery DB;
And an authentication result providing unit for providing the battery authentication result information determined by the authentication unit to the battery exchange unit.
The method of claim 3,
The battery producing unit includes:
A battery connecting portion to which at least one battery is connected, the battery connecting portion including a program connecting terminal;
A battery programming event detection unit for checking whether a battery programming event is generated;
An authentication information request unit for transmitting a battery authentication request signal for requesting battery authentication information including battery identification information corresponding to each of the batteries connected to the battery connection unit when a battery programming event is detected through the battery program event detection unit;
An authentication information receiver for receiving and outputting battery authentication information corresponding to each of the battery identification information in response to the battery authentication request signal; And
And a battery programming unit for recording battery authentication information corresponding to the battery management system of the battery through the battery connection unit, the battery authentication information received through the authentication information receiving unit,
The battery authentication server unit,
Generates and assigns battery certification generation information corresponding to each battery identification information included in the battery certification request signal upon receipt of the battery certification request signal from the battery production section, and acquires battery identification information and battery certification creation information And an authentication information registration unit for registering the battery authentication information with the battery production unit, storing the battery authentication information, and registering the same as a genuine battery.
The battery exchange unit acquires battery authentication information from the battery management system of the battery when a battery authentication event occurs by connection of a battery to be charged and transmits a battery authentication request signal including the battery authentication information to the battery authentication server unit, Requesting a battery certification request process; And
When the battery authentication server receives the battery authentication request signal while monitoring whether the battery authentication request signal is received, the battery authentication server detects the included battery authentication information, compares the battery authentication information with previously registered battery authentication information, And a battery activation step of authenticating whether the battery is the battery authentication information and providing the authentication result information to the battery exchange unit.
8. The method of claim 7,
Further comprising a genuine battery charging step of supplying a charging current to the battery if the battery requested by the battery exchange unit is a genuine battery according to authentication result information received from the battery authentication server unit, A method of authenticating an electric vehicle using a battery.
8. The method of claim 7,
When a battery production unit receives at least one battery, detects a programming event for the battery, transmits a battery authentication information request signal including battery identification information of the battery to a battery authentication server unit to request registration of the battery, ;
Wherein the battery authentication server generates battery certification generation information for each battery identification information included in the battery certification information request signal, stores the generated battery certification information in the genuine battery DB, registers it as a genuine battery, A battery registration step of transmitting battery authentication information including battery authentication creation information; And
And the battery producing unit records the battery authentication information in a battery having the corresponding battery identification information.
8. The method of claim 7,
The battery authentication request process includes:
A battery authentication event monitoring step for monitoring whether a battery authentication event occurs after connection of the battery;
An authentication information obtaining step of obtaining battery authentication information from the battery when a battery authentication event occurs;
And an authentication request step of generating battery authentication request information including the generated battery authentication information, and transmitting the generated battery authentication request information to the battery authentication server unit in response to the battery authentication request signal. Way.
8. The method of claim 7,
The battery activation process includes:
A battery certification request event monitoring step of monitoring whether a battery certification request signal is received from the battery exchange unit;
A battery authentication information detection step of detecting battery authentication information included when a battery authentication request signal is received;
An authentication step of comparing the detected battery authentication information with battery authentication information of a genuine battery registered in advance and authenticating that the battery of the detected battery authentication information is a genuine product; And
And an authentication result notifying step of providing authentication result information according to the authentication to the battery exchange unit.
9. The method of claim 8,
In the genuine battery charging process,
An authentication result reception monitoring step of monitoring whether the battery exchange unit receives an authentication result notification from the battery authentication server unit;
An authentication result analysis step of determining whether the authentication result information is authentication success if the authentication result information is received; And
And if the authentication is successful, controlling the charging unit to supply the charging current to the battery corresponding to the battery identification information of the connected battery authentication information, thereby charging the battery.
10. The method of claim 9,
In the battery authentication request process, the battery exchange unit transmits a battery authentication request signal including battery authentication information including battery identification information to the battery authentication server unit,
The battery activation process includes:
A battery authentication pattern providing step of providing battery authentication pattern information upon occurrence of the battery authentication request when a battery authentication request signal is received from the battery authentication server section from the battery exchange section;
A battery exchange key generating step of generating a battery authentication key based on the battery authentication generation information and the battery authentication pattern information and transmitting the battery identification information and the battery authentication key in the battery authentication information; And
The battery authentication server unit generates a verification battery authentication key according to the battery creation authentication information that is previously known with respect to the battery identification information of the battery authentication information included in the battery authentication request information received from the battery authentication pattern information and the battery authentication request signal received from the battery requested for battery authentication And a battery authentication key authentication step of comparing the received battery authentication key with the verification battery authentication key to perform authentication.

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