KR100713919B1 - CARD TERMINAL EQUIPMENT SEPARATING RF-card MODULE - Google Patents

Abstract

Disclosed is a RF card module detachable card terminal of the present invention. The present invention provides a card terminal in which data communication is performed with an RF card activated by radio waves radiated from an RF antenna, and an RF card module for reading information stored in an IC chip in the RF card is separated from the terminal main body. It relates to a card terminal, the main feature of which is built.

Therefore, since the RF card module is embedded in the RF antenna unit, the RF card module is conventionally embedded in the terminal body, thereby overcoming the problem that the distance between the RF antenna unit and the terminal body is not separated by a predetermined distance or more. It can be applied by connecting the terminal body of a number of RF antenna parts by wire and applied to traffic card system, affiliated payment terminal system, etc. to not only promote user convenience, but also reduce the cost of terminal production. Provides the effect of improving the data communication speed between terminals.

RF card, IC card, card terminal

Description

RF Card Module Separable Card Terminal {CARD TERMINAL EQUIPMENT SEPARATING RF-card MODULE}

1 is a schematic diagram of a conventional card terminal.

Figure 2 is a schematic block diagram of the present invention RF card module detachable card terminal.

Figure 3 is a block diagram according to a preferred embodiment of the present invention RF card module removable card terminal.

Figure 4 is a flow chart illustrating a card issuing process applied to the present invention.

*** Brief description of the main symbols in the drawings ***

300: card terminal basic body 310: control unit

320: data storage unit 330: display unit

340: IC interface unit 350: communication unit

360: power supply unit 370: connector

400: RF antenna 410: RF card module

420: RF antenna

The present invention relates to a card terminal for activating the RF card by radiating radio waves to the RF card to perform a predetermined function, such as inquiry, transaction approval, payment, etc., in particular the RF card module is embedded in the RF antenna The present invention relates to an RF card module detachable card terminal having a main feature.

The RF stands for Radio Frequency and stands for radio frequency. An RF card is a type of integrated circuit (IC) card and refers to a contactless card using RFID technology for data communication with a terminal.

The RF card is generally a form in which an IC chip activated by an RF method is embedded therein and a wire (antenna) is enclosed around an edge of the card to receive radio waves emitted from the RF terminal.

In more detail, the configuration includes an RF interface unit, a control unit, and a memory unit, which are modules for converting data into RF signals so that data communication with the terminal is possible.

The RF interface unit includes a rectifier for rectifying the induced voltage induced in the antenna, a modulator for modulating and demodulating data transmitted to and received from the antenna, a voltage stabilizer for supplying a stable voltage to each component of the IC, and a clock generator for clocking the operation controller. The control unit is composed of an operation controller having a data serial-to-parallel conversion circuit, a RAM, and a ROM therein, and the operation controller allocates a storage area according to a stored command of a ROM to give a prepaid card function to an RF credit card. It is possible.

The memory unit may provide a prepaid card function to the RF credit card by allocating a portion of the memory area of the EEPROM as a prepaid micropayment storage area, including an EEPROM capable of electrically writing and deleting data.

When the RF card configured as described above is passed within the recognition distance of the RF antenna of the card terminal capable of RF data communication, that is, within a range that emits a certain radio frequency, the wires acting as antennas surrounding the edges of the card collect radio waves. By activating the IC chip within and changing the stored fare information and transmitting the changed information to the traffic card reader, payment of the fare is made.

At this time, the technology used for data communication between the RF traffic card and the traffic card reader is RFID technology, and the principle is the electromagnetic induction discovered by Faraday. That is, when the magnetic field around the coil or lead changes, the first coil formed in the traffic card reader generates a continuously changing magnetic field by using the principle that current flows in the coil or lead, and the second card that rotates the card around the card When the coil is close to the reader, it is very weak in the coil, but induces enough electricity to operate the integrated IC chip to activate the IC chip.

The card terminal that performs data communication with the RF card using the RFID technology is widely applied to a traffic card reader, a traffic card charger, an access control reader, a financial terminal, a merchant payment terminal, and a parking management terminal.

As described above, by using the RFID technology and performing data communication with the RF card to radiate radio waves so that induced electromotive force can be generated in the antenna coil of the RF credit card and receive the card number data of the RF credit card to the server The transmitting card terminal is conventionally as shown in FIG.

The card terminal is composed of an RF antenna unit 200 and a terminal body 100 for radiating radio waves having a predetermined radio frequency for data communication with the RF card, the terminal body 100 of each component of the card terminal Control unit 110 for controlling the operation, IC card module for performing data communication with the IC card and the subscriber identification module for storing the security connection kit value according to the subscriber identification mode through the IC antenna 140, the RF antenna RF card module (1800) to read the information stored in the IC chip in the RF card to perform data communication, such as card inquiry, payment, transaction approval, depending on the characteristics of the card terminal, various data and terminal information, including the communication data It consists of a data storage unit 120 for storing the, a display unit 130 for displaying communication data, a power supply unit 160 that is a power supply means and a communication unit 150 for supporting communication with an external device .

However, since the RF card module 180 for performing data communication with the RF card is configured in the terminal body 100 as described above, the RF antenna unit 200 is connected to the terminal body 100 by wire or more than a predetermined distance. There was a problem that can not fall into.

That is, when the RF card module 180 performing data communication such as reading information of the IC chip in the RF card through the RF antenna unit 200 is separated from the RF antenna unit 200 by a predetermined distance or more, Since the IC chip information cannot be read, the distance between the RF antenna unit 200 and the terminal body 100 has been limited within a certain range. Accordingly, there was no choice but to manufacture a card terminal composed of one RF antenna unit 200 per terminal body 100.

On the other hand, when a card is conventionally issued, the card issuing instruction is issued for the card issuance from the card issuing method and the processing result is transmitted. Then, the card issuing server checks the card number and transmits an issuing command according to a predetermined procedure for issuing to the terminal, so the card issuing is performed according to continuous data transmission and reception between the card issuing server and the terminal. If there is a fall and expand the terminal or replace the product, there was a problem such as redeveloping a new card issuing server program.

Therefore, the present invention was conceived to solve the above problems, RF card module separate type card terminal, characterized in that the RF card module for performing data communication with the RF card through the RF antenna unit is embedded in the RF antenna unit. The purpose is to provide.

The control unit may include a central processing unit capable of controlling a series of processes including data communication with an RF or IC card, and capable of performing up to 10 interrupts, and an EPLD element for increasing the number of interrupt processing possible of the central processing unit. Another object of the present invention is to provide an RF card module detachable card terminal.

The IC interface unit is for authenticating an IC card having an authentication key for a secure connection having a different method for each card issuer, and is capable of authenticating at least four types of secure access authentication keys, and an IC card and An IC card module for performing data communication is composed of at least three MCUs, and thus, another object of the present invention is to provide an RF card detachable card terminal having an advanced speed and performance of data communication as compared to the conventional art.

The data storage unit receives the card issuance application from the card issuing applicant without the real-time data communication with the card issuing server and updates the authentication information and the issuing information according to the card issuance to the RF or IC card to perform card issuance. The card issuing program is stored, and the control unit generates a personal authentication and card issuing information by the card issuing program stored in the data storage unit to provide an RF card module detachable card terminal for performing a series of processes according to the card issuing. There is another purpose.

In order to achieve the above object, the present invention provides an RF antenna unit for supplying power to an RF card to activate an embedded IC chip, and an RF card module or a contact type IC card for performing data communication with the activated IC chip. An IC interface unit consisting of an IC card recognition unit for recognizing an IC card and an IC card module for performing data communication with an IC chip embedded in the IC card, a series of processes for performing data communication with the RF module or IC interface unit. The main controller includes a control unit for controlling, a data storage unit for storing various data and terminal information including the communication data, a communication unit for performing data communication with an external device, a display unit for displaying communication data to the outside, and a power supply unit for power supply. In the card terminal consisting of a board, the RF card module is embedded in the RF antenna unit, the control unit is an RF or IC card That of a control a series of processes, including data communication and configured to interrupt execution of the central processor, the central processor can perform a maximum of 10 interrupt by EPLD supported to be up to 13 is characterized.

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The IC interface unit authenticates an IC card having an authentication key for a secure connection having a different method for each card issuer, and is capable of authenticating at least four types of secure access authentication keys, an IC card and data. An IC card module for performing communication is characterized by consisting of at least three MCU.

Hereinafter, an embodiment of the RF card module detachable card terminal of the present invention will be described in detail with reference to the accompanying drawings.

2 is a schematic block diagram of an RF card module detachable card terminal of the present invention.

As shown in the figure, the present invention is largely composed of the RF antenna unit 400 and the terminal body (300).

The RF antenna unit 400 corresponds to an RF antenna 420 radiating radio waves to supply power for driving an RF card, and data corresponding to an RF interface unit of the RF card for data communication with the RF card. An RF card module 410 performs access, data encoding, and decoding (modulation, demodulation) functions. The RF antenna 420 mainly consists of a loop antenna and supports an ISO14443 standard corresponding to a contactless type.

In addition, the terminal body 300 is wired through the RF antenna unit 400 and the connector 370, the control unit 310, the data storage unit 320, IC interface unit 340, communication unit 350 , A display unit 330, and a power supply unit 360.

When the IC interface 340 is recognized, the IC interface unit 340 performs data communication such as reading data stored in the IC card, supports ISO7816 standard corresponding to the contact type, and IC card recognition unit and IC card module. It consists of.

The controller 310 controls the entire operation of a card terminal and a series of processes in which the RF card module 410 or the IC interface unit 340 performs data communication with an RF card or an IC card. RF information or through the IC interface unit 340 is processed.

The data storage unit 320 not only temporarily stores information read by the RF card module 410 or the IC interface unit 340 through the RF antenna 420 and the IC card recognition unit, but also stores terminal information.

 The communication unit 350 is used to perform data communication with an external device, and is used when the card terminal temporarily stores data read from an RF card or an IC card and transmits the data to a server.

The display unit 330 is for externally displaying and confirming the processing result while reading data of the RF card or IC card, and the power supply unit 360 supplies power for the entire operation of the card terminal.

As described above, the RF card module 410, which is conventionally configured in the terminal body 300, is built in the RF antenna unit 400, and the most important feature of the present invention is that the RF antenna unit recognizes the IC chip of the RF card. It eliminates the conventional inconvenience that the distance between the 400 and the terminal body 300 in which the RF card module 410 is embedded is limited within a predetermined range.

Therefore, since the distance between the RF antenna unit 400 and the terminal body 300 is limited as described above, it is possible to configure a plurality of RF antenna units 400 connected to one terminal body 300 by wire. .

When the present invention is applied to a traffic card system, a bus card reader corresponds to an RF antenna part in one reader basic body, that is, a user may form a plurality of bus card reader parts that request payment by approaching a bus card, and thus crowded when getting on and off. It provides the effect of mitigating.

Furthermore, if the present invention is applied to a payment system, a plurality of credit card readers for recognizing an RF credit card are installed in each of the payment terminal basics in a merchant terminal, and installed at each table, the user's convenience during payment. Can be planned.

Figure 3 is a detailed block diagram according to a preferred embodiment of the present invention RF card module detachable card terminal.

As shown in the figure, the RF antenna unit 400 is composed of a loop antenna 420 and an RC531 410 as an RF card module. The control unit 310 of the terminal body 300 is an 8-bit CPU 312 having a maximum interrupt limit of 10 of the ATmega128 standard, and an erasable programmable logic device (EPLD) 314 supporting up to 13 interrupts of the CPU. It is composed.

The data storage unit 320 stores data read from an RF card or an IC card and unique information of a storage terminal such as an ID or a serial number of the terminal, and the information stored in the data storage unit is settled under the control of the CPU 312. It is transmitted to the main computer connected for a predetermined data communication, such as card inquiry, payment approval, and also the terminal unique information is also transmitted to recognize the target terminal requesting the data communication.

The IC interface unit 340 includes three subscriber station identification modules 346 for storing three MC33560 standard MCUs (Micro Controller Units).

In this case, the MCU 342 is an integrated circuit that embeds an electrically erasable and programmable read memory device (EEPROM) and controls an operation or a process of a device or the like. In particular, the MC33560 used in the present invention is an interface IC for the smart card reader / writer application of MC33560-Motorola, and all necessary functions for secure data transmission to almost all types of smart cards and memory cards by a simple microcontroller interface. It is designed to provide high throughput, long battery life due to extended operating range, and almost no current flow in standby mode.

In addition, the subscriber identification module 346 is a module for authenticating an IC card having an authentication key for a secure connection having a different method for each card issuer, and preferably supports at least four types of authentication keys. .

In addition, the communication unit 350 of the terminal body 300 is composed of RS232 352 and PIC17C44 354 supported by the CPU 312 and used when transmitting and receiving data to and from an external device. The RS232 352 is for long distance communication, and parallel transmission works well at a very short distance, but when it is far away, it is connected to the CPU 312 through a required UART.

And the display unit 330 is composed of LCD.

On the other hand, the terminal body of the present invention, although not shown in the drawings, and other auxiliary components such as a power supply / reset unit for supplying or initializing the power required for each configuration or a clock generator for generating a clock required for operation.

Thus, the operation of the present invention configured RF card module separate card terminal is as follows.

The RF card module 420 activates the RF card approaching within the recognition distance of the RF antenna 410, and demodulates and demodulates the received RF chip information in the RF card through the RF antenna 410. Check the card number in the card information to see if it is legitimate. Then, the IC chip is accessed, and predetermined data communication such as approval of card use and card use charge collection is made under the control of the CPU 312.

In the case of the non-contact IC card, the IC card module 342 provided in the IC interface unit 340 allows access to the IC chip in the IC card recognized through the IC recognition unit 344 under the control of the CPU 312. After the authentication process, if allowed, predetermined data communication is performed as in the RF card.

5 is a flowchart illustrating a card issuing process applied to the present invention, in which the present invention is applied to a card issuer.

As shown in the figure, the card issuing process is performed as follows.

First, the chip serial number is read from the blank RF card (S100).

Then, the chip serial number of the blank RF card is applied to a predetermined algorithm of arithmetic algorithm, and arithmetic processing is performed to generate a unique security connection kit value for each card (S200).

The secure connection kit value generated by the kit value generation module is registered in the RF card (S300).

Then, since the registered information is transmitted to the card issuing server, the card issuing process is completed (S400).

In the present invention, the card issuing process is performed as described above, but the card terminal receives the issuance command from the server. However, in the present invention, the card terminal itself performs the card issuing process without the connection with the server, and only the processing result is the card issuing server. It is made by way of sending on.

That is, unlike the conventional method in which the card issuing process described above is performed under the control of the card issuing server, the card is read, transmitted to the server, receiving a write command from the server, and writing to the card. According to the issuance order by the terminal itself.

When the card issuing program is stored in the data storage unit and the CPU is issued from the card recognized through the RF antenna, the card issuing process is performed according to the issuance command by the stored card issuing program without being connected with the card issuing server. In other words, only the processing result is transmitted to the card issuing server to complete the card issuance.

In addition, by storing the personally issued information such as the card number, the card expiration date, and the kit value generated for the user authentication security, the card recognized through the RF antenna unit is issued as a valid card and the stored information is transmitted to the card issuing server. Issuance processing is completed.

In the above, the present invention has been illustrated and described with reference to specific preferred embodiments, but the present invention is not limited to the above-described embodiments, and the present invention is not limited to the spirit of the present invention. Various changes and modifications may be made by those who have, and it is obvious that such changes and modifications belong to the appended claims.

 As described above, the present invention has a conventional problem in that an RF card module for performing data communication with an IC chip in an RF card is embedded in the RF antenna part so that the distance between the RF antenna part and the terminal body board is limited within the range in which the data communication is possible. Eliminate

In addition, it is possible to configure a plurality of RF antenna modules with a built-in RF card module to connect with a single terminal body by wire, so that it can be applied to a traffic card system, affiliated payment terminal system, etc. to facilitate the user's convenience.

In addition, the present invention is a card issuing program for controlling card issuance is stored in the data storage unit to perform the card issuing procedure under the control of the control unit and transmits only the results to the card issuing server, so that the card issuing processing speed is fast It is easy to add user authentication and security module generation chip.

Claims (4)

delete An RF antenna unit for supplying power to an RF card to activate an embedded IC chip, an IC card recognition unit for recognizing an RF card module or a contact type IC card performing data communication with the activated IC chip, and the IC An IC interface unit comprising an IC chip embedded in a card and an IC card module for performing data communication, a control unit for controlling a series of processes for performing data communication for the RF module or the IC interface unit, and various data including the communication data. And a main board comprising a data storage unit for storing terminal information, a communication unit for performing data communication with an external device, a display unit for displaying communication data externally, and a power supply unit for power supply. The RF card module is embedded in the RF antenna unit, and the control unit controls a series of processing procedures including data communication with the RF or IC card and performs up to 10 interrupts, and performs the interrupt of the central processing unit. RF card module detachable card terminal, characterized in that consisting of EPLD to support up to 13. The method of claim 2, wherein the IC interface unit IC card for authenticating an IC card having an authentication key for a secure connection having a different method for each card issuer, and performing an IC card data communication with a subscriber identity module and an IC card capable of authenticating at least four types of secure access authentication keys. RF card module detachable card terminal, characterized in that the module is composed of at least three MCU. delete

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