KR20150120898A - Interface Machine for supporting communication between IC card reader and RF card - Google Patents

Abstract

The present invention relates to an interface apparatus for supporting communications between an integrated circuit (IC) contact type card reader and a radio frequency (RF) card. According to the present invention, the interface apparatus comprises: a contact type terminal of an IC contact card type; a first communications module configured to communicate with an IC contact type card reader through the contact type terminal; a second communications module configured to communicate with an RF card; and a conversion unit. The power for driving the interface apparatus is configured to to be received from the IC contact type card reader through the contact type terminal. The conversion unit is configured to perform a step of mutually converting formats of a first message transceived in the first communications module, and a second message transceived in the second communications module.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to an IC card reader and an RF card,

The present invention relates to an interface device that combines IC technology and RF technology to support data communication between an IC contact card reader and an RF card.

In order to solve the security weakness that may occur in the credit settlement using the magnetic, IC contact card transaction is required for financial transaction security. Users with multiple credit card accounts can have as many plastic square cards as there are accounts or USIMs that can be used as security devices (SEs) to store personal information for mobile financial transactions. A plurality of card information may be stored and used.

On the other hand, RFID (Radio Frequency Identification) includes a communication module and an IC via a radio frequency. RFID technology consists of a tag that provides information and a reader that reads and decodes this information. Near Field Communication (NFC) technology, which is one of the RFID technologies, refers to non-contact type short range wireless communication technology that uses a frequency band of 13.56 MHz and transmits various wireless data within a distance of 10 cm or less. NFC technology not only provides data communication between terminals through convergence with smart phones, but also provides compatibility with existing contactless smart card technology and RFID. This allows the electronic devices to communicate with each other by simply touching the electronic device (e.g., smart phone) or placing the electronic devices within a close distance. Currently, existing contactless smart card technology is widely used in subway, bus, and transportation cards, and credit cards, and is also used in the field of distribution and logistics in the form of RFID tags. However, IC contact card reader terminals are widely used as infrastructures for IC contact cards, whereas NFC reader terminals for NFC transactions are not widely available. Therefore, in the case where there is no NFC reader terminal and transaction with NFC is provided in an environment where only an IC contact card reader terminal is provided, conversion to the IC contact card payment method must be preceded.

The present invention provides an interface device capable of supporting communication between an IC contact card reader and an RF card, and a card processing system including the same.

In order to solve the above-described problems, the present invention provides an interface device for supporting communication between an IC contact card reader and an RF card, and a card processing system including the same.

An interface device according to one aspect of the present invention includes: an IC contact type card type contact terminal; A first communication module adapted to communicate with the IC contact card reader via the terminal; A second communication module adapted to communicate with an RF card; And a conversion unit. In this case, the power for driving the interface device is received from the IC contact-type card reader via the terminal, and the converting unit receives the first message transmitted and received by the first communication module and the first message transmitted and received by the second communication module And converting the format of the second message. At this time, the first communication module satisfies the ISO / IEC 7816 standard, and the second communication module can satisfy the ISO / IEC 14443 standard. And the interface device further comprises a buffer for storing the first message and the second message in the buffer prior to the mutual conversion step. In a modified embodiment, the power for driving the interface device may be supplied from an external power supply terminal.

According to another aspect of the present invention, there is provided an RF card processing system for communicating with an RF card, comprising: an IC contact type card reader; And an interface device for supporting communication between the IC contact type card reader and the RF card. The interface device may be provided in the form of an add-on or a plug-in. At this time, the IC contact type card reader may be in contact with the IC contact type card and communicate with the IC contact type card. And the interface device comprises: a contact communication terminal compatible with the IC contact type card; A first communication module adapted to communicate with the IC contact-type card reader via the communication terminal; A second communication module adapted to communicate with the RF card; And a conversion unit. In this case, the power for driving the interface device is received from the IC contact-type card reader through the communication terminal, and the converting unit receives the first message transmitted / received by the first communication module and the first message transmitted / The format of the second message to be transmitted is transformed. A first recognition unit adapted to recognize the IC contact type card in a contact manner; And a second recognition unit adapted to recognize the RF card in a non-contact manner. In this case, when the IC contact type card is recognized through the first recognition unit, the first contact signal is inputted from the IC contact type card and the non-contact signal is received from the RF card when the RF card is recognized through the second recognition unit And the first contact signal and the noncontact signal are converted into a second contact signal form and output. At this time, the first recognizing unit may be provided in the form of an inlet terminal so that the IC contact type card can be inserted in a contact manner.

According to another aspect of the present invention, an interface device for supporting communication between an IC contact card reader and an RF card can be provided. The apparatus comprises: an IC contact card type contact terminal; A first communication module adapted to communicate with the IC contact card reader via the contact terminal; A second communication module adapted to communicate with the RF card; And the converting unit converts the format of the first message transmitted and received by the first communication module and the format of the second message transmitted and received by the second communication module.

At this time, electric power for driving the interface device may be received from the IC contact-type card reader through the contact-type terminal.

At this time, the first communication module satisfies the ISO / IEC 7816 standard, and the second communication module can satisfy the ISO / IEC 14443 standard.

At this time, the interface apparatus may further include a buffer, and may store the first message and the second message in the buffer before the mutual conversion step.

A first slot adapted to recognize the IC contact card in a contact manner; And an RF reader adapted to recognize the RF card in a non-contact manner.

According to another aspect of the present invention, an RF card processing system for communication with an RF card can be provided. The system comprises an IC contact card reader; And an interface device for supporting communication between the IC contact type card reader and the RF card, wherein the IC contact type card reader is adapted to communicate with the IC contact type card in contact with the IC contact type card, The apparatus comprises: a contact communication terminal compatible with the IC contact card; A first communication module adapted to communicate with the IC contact-type card reader via the contact-type communication terminal; A second communication module adapted to communicate with the RF card; And the converting unit converts the format of the first message transmitted and received by the first communication module and the format of the second message transmitted and received by the second communication module.

At this time, power for driving the interface device may be received from the IC contact-type card reader via the contact-type communication terminal.

According to the present invention, it is possible to provide an interface device capable of recognizing an RF card even in a POS terminal which can not recognize the RF card, but can recognize the IC contact type card.

1 is a diagram for explaining a card processing system according to an embodiment of the present invention.
2 is a diagram for explaining an internal structure of an interface device in a card processing system according to an embodiment of the present invention.
3 is a flowchart of a card processing system according to an embodiment of the present invention.
4 is a block diagram of an interface device according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described with reference to the accompanying drawings. However, the present invention is not limited to the embodiments described herein, but may be implemented in various other forms. The terminology used herein is for the purpose of understanding the embodiments and is not intended to limit the scope of the present invention. Also, the singular forms as used below include plural forms unless the phrases expressly have the opposite meaning.

1 is a diagram for explaining a card processing system 100 according to an embodiment of the present invention.

1, a card processing system 100 in accordance with an embodiment of the present invention includes a system 300 for processing card information through an IC contact card 40 and a mobile device 130 providing RF card functionality, An IC chip reader 120, a mobile device 130, and a merchant computer 140. The interface device 110 may be an interface device, an IC chip reader, 1, the card processing system 100 may be regarded as being configured except for the IC contact card 40 and the mobile device 130. [ The mobile device 130 may be a smart phone with a built-in USIM chip having an RF card function, or may be a plastic rectangular card having an IC for supporting RF communication function and processing a card function. Herein, the term " RF card " refers to a processing unit capable of processing financial-related transactions using various types of cards such as a prepaid card, deferred card, debit card, or credit card, And an RF processing unit that allows communication to be performed in an RF manner.

The interface device 110 is a device for supporting communication between the IC contact card reader 120 and the mobile device 130. The interface device 110 includes an RF reader 10 adapted for wireless communication in a non-contact manner with the mobile device 130, a first slot ) 20, and a contact terminal (contact type outlet terminal) 30 which is adapted to be connected in a contact manner to the IC contact type card reader 120.

The IC contact card reader 120 includes a second slot (second slot interface) 50. It is of course possible to establish communication between the IC contact type card 40 and the IC contact type card reader 120 when the IC contact type card 40 is inserted and brought into contact with the second slot 50. [

At this time, the contact terminal 30 of the interface device 110 may be inserted into the second slot 50. The contact type terminal 30 and the IC contact type card 40 are each provided with exposed electrical contact terminals which are provided with the same standard and are compatible with each other.

According to this configuration, the following two functions can be provided.

First, when the contact type terminal 30 is inserted into the second slot 50 and the IC contact type card 40 is inserted into the first slot 20, the IC contact type card reader 120 is inserted into the IC contact type card 40) of the user. At this time, the interface device 110 can simply provide a pass through function between the IC contact card reader 120 and the IC contact card 40.

Secondly, when the contact terminal 30 is inserted into the second slot 50 and the mobile device 130 and the RF reader 10 are communicated with each other, the interface device 110 sends / It is possible to provide a function of converting the format of the received data into the data format for the IC contact-type card reader 120 and relaying it.

The mobile device 130 is an apparatus adapted to transmit and receive data in an RF manner, and can support two modes. First, it can support a mode that operates as a reader that is designed to automatically recognize data stored in a tag or card with a chip and an antenna using radio frequency. Second, the mobile device 130 itself may function as a tag or card with a chip and an antenna embedded therein. In the second case, the RF reader 10 of the interface device 110 may operate as an RF reader.

In one embodiment of the present invention, the mobile device 130 may operate as the second mode. Accordingly, the mobile device 130 may be, for example, an RF card implemented using RFID technology, an RF device, or an NFC card, an NFC device, or a smartphone implemented using NFC technology, which is one of RFID technologies.

Herein, 'mobile device 120' may be referred to as 'RF card', 'RF device', 'NFC device', or 'NFC card' Multi-device ". The 'first slot 20' may be referred to as a 'first recognition unit', and the 'RF reader 10' may be referred to as a 'second recognition unit'.

FIG. 2 is a view for explaining an example of the internal structure of the interface device 110 of FIG.

2, the interface device 110 includes a first communication module 21, a second communication module (RF signal module) 22, and a conversion unit 23.

The first communication module 21 is adapted to support contact communication with the IC contact card reader 120 via the contact terminal 30 shown in Figure 1 and the second communication module 22 is adapted to support contact communication with the mobile device 130) and non-contact communication in the RF system. At this time, the first communication module 21 may satisfy the ISO / IEC 7816 international standard, and the second communication module may satisfy the ISO / IEC 14443 international standard. ISO / IEC 7816 is an international standard relating to contact type ID cards (electronic identification cards), in particular, smart cards. In addition, the ISO / IEC 14443 is an international standard related to contactless IC contact cards (or proximity cards), which can be applied to smart cards (ex: transportation cards, credit cards) and can supply power wirelessly.

The converting unit 23 converts the format of the first message transmitted and received by the first communication module 21 and the format of the second message transmitted and received by the second communication module 22 into each other. Here, the first message may be a message satisfying the contact communication standard followed by the IC contact card reader 120, and the second message may be a message satisfying the RF communication standard to be followed by the mobile device 130 have.

Meanwhile, the interface device 110 according to an embodiment of the present invention further includes a buffer 24, and before performing the mutual conversion in the conversion unit 23 according to the above description, And store the second message in the buffer 24. This is because the communication protocol (international standard) between the first communication module 21 and the second communication module 22 is different, so that the first message and the second message are temporarily stored in the buffer 24 . The converting unit 23 and the buffer 24 may exchange data with each other. In one embodiment, the buffer 24 may be included in the converting unit 23.

The first slot 20 may be connected to the conversion unit 23 or the first communication module 21.

3 is a flowchart illustrating a process of performing communication specification conversion between the IC contact card reader 120 and the mobile device 130 in the card processing system 100 according to an embodiment of the present invention.

The card processing system 100 according to the embodiment of the present invention can perform an interface between the IC contact card reader 120 and the mobile device 130 by performing steps S101 to S106 to be described later have.

In step S101, the interface device 110 is supplied with power from the IC contact-type card reader 120. At this time, the electric power can be supplied through the electric contact terminal formed on the contact terminal 30 as a wire. In some other embodiments, the power may be supplied via a separate power supply terminal not shown.

In step S102, the first communication module 21 of the interface device 110 distributes the power and supplies the divided power to the second communication module 22. [ At this time, power distribution can have two meanings. First, power can be distributed to some of the components provided in the interface device 110 to ensure basic operation of the interface device 110. Second, the second communication module may use power only when communicating with the mobile device 130. Therefore, the power provided to the second communication module may be provided only when necessary, or may be provided at all times.

In step S103, the RF reader 10 of the second communication module 22, which receives the power from the first communication module 21, is configured to wirelessly provide power to the mobile device 130. [

In step S104, when the mobile device 130 receives power wirelessly, the mobile device 130 is configured to transmit a response signal to the interface device 110. [

In step S105, the interface device 110 is configured to transmit an initial request signal (Request Init.) To the IC contact card reader 120.

When the above-described steps are performed, the IC contact-type card reader 120 and the mobile device 130 can communicate with each other via the interface device 110. [

At this time, the flow state of the card processing system 100 can be divided into three states such as an idle state, a ready state, and an interface state. Here, the interface state may mean a state where communication between the mobile device 130 and the IC contact card reader 120 is possible. For example, the card processing system 100 is initially in an idle state, and after the interface device 110 receives power from the IC contact-type card reader 120 in accordance with the step S101, State. Then, after performing the above-described steps (S102) to (S104), it may be switched to the interface state.

In one embodiment, the above-mentioned idle state corresponds to the following step 1, the above-described ready state corresponds to the following steps 2 to 4, and the above-described interface state may correspond to the following step 5.

(Step 1) When the power is supplied to the interface device 110, the interface device 110 can distribute the power to the functional modules ex 21 and 22 in the self and initialize the RF signal module 22.

(Step 2) When the user of the mobile device 130 places the mobile device 130 in the RF reader (RF pad) 10, the RF reader 10 detects the presence of the mobile device 130.

(Step 3) When the mobile device 130 is detected, the RF signal module 22 performs RF communication initialization with the mobile device 130.

(Step 4) The contact signal module 21 performs initialization for IC communication with the IC chip reader 120.

(Step 5) When the ready state of steps 2 to 4 is completed, APDU communication conversion is performed between the mobile device 130 and the IC chip reader 120.

4 is a block diagram of an interface device 110 according to an embodiment of the present invention.

As shown in FIG. 4, the interface device 110 according to an embodiment of the present invention may include a serial port 31 and a power port 32. The I / O port (I / O port) is composed of a first power supply unit Vcc, a second power supply unit Vpp, a reference potential unit GND, an input / output terminal I / O, a reset terminal RST, and a clock terminal CLK 49 may be provided. At this time, the I / O port 49 may be the electrical contact terminal formed on the contact type terminal 30 described above.

The interface unit 110 includes a microcontroller (MCU) 41, an IC reader unit (ex: RC 531) 42, an impedance matching unit 43, , And a real time clock (44).

The interface device 110 receives power through a power port 32 or receives power from the first power supply Vcc, the second power supply Vpp, and the reference potential GND ). ≪ / RTI > Power for operation for development and maintenance of the interface device 110 can be supplied through the power port 32 and / or the I / O port 49. [ And when the interface device 110 is used for its intended purpose, the necessary power can also be supplied through the power port 32 and / or the I / O port 49. [

The microcontroller 41 may be implemented using, for example, a 16-bit MCU. At this time, the microcontroller 41 receives the first data from the external IC contact card reader 120, and converts the first data into a predetermined data format. At this time, the micro controller 41 provides the IC reader unit 42 with the second data converted into the predetermined data format.

The microcontroller 41 is equipped with an operating system and can perform an appropriate conversion task according to a predetermined rule. The microcontroller 41 can perform RF communication in cooperation with the RC 531 chip and can perform re-conversion work according to an appropriate communication interface. The microcontroller 41 can proceed to initialize each interface according to the initial setting. The data to be transmitted and received from the contact interface can be converted and transmitted / received in the same format as described above.

The IC reader unit 42 is configured to communicate with the RF card through the RF communication medium. As the IC reader unit 42, for example, a chip having the name RC 531 of Philips, Inc. can be used, and how to use such a commercial chip is well described in the chip specification. The RC 531 chip is a highly integrated reader IC for contactless communication at 13.56 MHz and can support all layers of the ISO / IEC 14443 A / B communication method considering additional components such as oscillator, power supply, coil, . The RC 531 chip includes a Tx terminal and an Rx terminal, the Tx terminal being an output terminal adapted to provide a modulated 13.56 MHz energy carrier. And the Rx terminal is an input terminal for a response of the card, and a 13.56 MHz energy carrier may be a modulated load.

Hereinafter, the impedance matching unit 43 will be described. In general, impedance matching is designed to equalize impedances on both sides of a connection point (i.e., the connection point) in order to most efficiently transmit energy in a place where electronic circuits of different properties are connected. At this time, for example, the both sides may be an amplifier and a load, or a line and an antenna, and the connected place may refer to a connection point from the amplifier to the load, or a connection point from the power line to the antenna. The impedance matching unit 43 is provided between the IC reader unit 42 and the external antenna 45 so that the impedance of the IC reader unit 42 and the external antenna 45 are equal to each other have. One side of the impedance matching unit 43 may be connected to the Tx terminal and the Rx terminal of the IC reader unit 42 and the other side of the impedance matching unit 43 may be connected to the external antenna 45 .

The micro controller 41 receives the first data from the IC reader unit 42 and converts the first data into a predetermined data format. And finally transfers the converted second data to the external IC contact card reader 120 through the I / O terminal.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the essential characteristics thereof. The contents of each claim in the claims may be combined with other claims without departing from the scope of the claims.

10: RF reader 20: first slot
21: first communication module 22: second communication module
23: conversion section 24: buffer
30: mobile device 31: serial port
32: Power port 40: IC contact card
41: Micro controller 42: IC reader unit
43: Impedance matching unit 44:
45: antenna 49: I / O port
50: second slot 100: card processing system
110: Interface device 120: IC contact card reader
130: mobile device 140: merchant computer

Claims (1)

An interface device for supporting communication between an IC contact type card reader and an RF card,
IC contact card type contact terminal;
A first communication module adapted to communicate with the IC contact card reader via the contact terminal;
A second communication module adapted to communicate with the RF card; And
A conversion unit;
/ RTI >
Wherein the converting unit is configured to convert the format of the first message transmitted and received by the first communication module and the format of the second message transmitted and received by the second communication module,
Interface device.

Images