KR101382095B1 - Communication method between multi ic card and terminal device - Google Patents

Abstract

Provided is a communication method between a multi-IC card and a terminal device. According to the embodiment of the present invention, a multi-IC card includes multiple IC cards of which one is capable of communicating with a terminal device and relays communications between another IC card and the terminal device. Therefore, the terminal device utilizes all the IC cards included in the multi-IC card. [Reference numerals] (100) Dual IC card; (110) USIM card; (120) Financial card; (200) Mobile phone

Description

Communication method between multi IC card and terminal device {Communication Method between Multi IC Card and Terminal Device}

The present invention relates to a communication method of a terminal device, and more particularly, to a communication method between an IC card (Integrated Circuit Card) and the terminal device.

1 shows a dual IC card. For convenience of understanding and explanation, FIG. 1 further shows a mobile phone 20 and a payment reader 30 communicating therewith in addition to the dual IC card 10.

The dual IC card 10 is an IC card mounted on the mobile phone 20 and includes a universal subscriber identity module card 11 and a financial card 12 as shown in FIG. 1. .

The USIM card 11 is a contact IC card that can be in contact with the mobile phone 20 in contact. The financial card 12 is a contactless IC card capable of payment reader 30 and near field communication (NFC).

The financial card 12 can communicate only with the payment reader 30. Therefore, even if the dual IC card 10 is mounted on the mobile phone 20, the mobile phone 20 can only communicate with the USIM card 11, and cannot communicate with the financial card 12.

As a result, despite being mounted on the mobile phone 20, the mobile phone 20 cannot send a command to the financial card 12 and receive data, so that the mobile phone 20 has only half the dual IC card 10. There is a problem that can not be utilized.

The present invention has been made to solve the above problems, an object of the present invention, the IC card that can communicate with the terminal device of the plurality of built-in IC card, it is possible to relay the communication between the other IC card and the terminal device In providing multiple IC cards.

According to an embodiment of the present invention for achieving the above object, a multi-integrated IC card (Multi Integrated Circuit Card), the first IC card capable of directly communicating with the first terminal device; And a second IC card capable of communicating with the first terminal device via the first IC card.

The second IC card may be capable of direct communication with the second terminal device.

In addition, the first IC card may not be able to communicate directly with the second terminal device.

The first IC card can directly communicate with the first terminal device in a contact manner, and the second IC card can communicate directly with the second terminal device in a contactless manner.

Further, in the communication between the first IC card and the second IC card, the first IC card may operate as a master and the second IC card may operate as a slave.

In the communication between the first IC card and the second IC card, the second IC card may recognize the first IC card as the first terminal device.

The first IC card transmits a command received from the first terminal device to the second IC card, and sends data received from the second IC card to the first terminal device in response to the command. The transmitting first applet may be installed.

The first applet may transmit a command transmitted to the first IC card to the second IC card after the first terminal device selects it.

Also, a second applet installed in the first IC card may transmit its command to the second IC card and receive data from the second IC card in response to the command.

One of the I / O ports of the first IC card and one of the I / O ports of the second IC card may be connected through a line.

In addition, the multiple IC card is mounted and used in the first terminal device, the second IC card can communicate directly with the second terminal device, and the first IC card is provided in the first terminal device. An IC card in which an applet necessary for a service is installed is installed, and the second IC card may be an IC card in which an applet required for service using the second terminal device is installed.

The first IC card is a SIM card (Subscriber Identity Module Card), the second IC card is an IC card issued with a card for financial settlement, and the first IC card is provided from the first terminal device. A reply command for the received credit card related information may be transmitted to the second IC card, and the related information received from the second IC card may be transmitted to the first terminal device in response to the command.

On the other hand, according to another embodiment of the present invention, a communication method between a multiple IC card and a terminal device, the first integrated circuit card (IC) card included in the multiple IC card directly communicating with the first terminal device; And communicating, by the second IC card included in the multiple IC card, with the first terminal device via the first IC card.

On the other hand, according to another embodiment of the present invention, a communication method between a multiple IC card and a terminal device, the terminal device directly communicating with the first IC card included in the multiple IC card; And communicating, by the terminal device, with the second IC card included in the multi-IC card through the first IC card.

As described above, according to embodiments of the present invention, an IC card capable of communicating with a terminal device among a plurality of built-in IC cards can relay communication between another IC card and the terminal device, so that the terminal device can be multiplexed. All IC cards embedded in the IC card can be utilized.

At this time, since the IC card relaying the communication is recognized as a terminal device by another IC card, a design change to an IC card other than the IC card relaying the communication is unnecessary. In addition, since communication between the IC cards and communication between the terminal device and the IC card is performed according to the ISO 7816 standard, it is possible to add a function while maintaining the existing structure to the maximum.

In addition, the command and data transferred between the terminal device and the IC card, there is an advantage that the security can be maintained even for the IC card relaying it.

1 is a view showing a conventional dual IC card,
2 illustrates a dual IC card according to an embodiment of the present invention;
FIG. 3 is a diagram showing the software architecture of the USIM card and the financial card shown in FIG. 2;
4 is a view provided to explain a communication method between a dual IC card and a mobile phone according to another embodiment of the present invention, and
FIG. 5 is a detailed block diagram of the mobile phone shown in FIG. 1.

Hereinafter, the present invention will be described in detail with reference to the drawings.

2 is a diagram illustrating a dual integrated circuit card according to an embodiment of the present invention. For convenience of understanding and explanation, FIG. 2 further shows a mobile phone 200 and a payment reader 300 communicating therewith in addition to the dual IC card 100.

The dual IC card 100 according to the present embodiment is an IC card mounted and used in the mobile phone 200, and as shown in FIG. 2, a USIM card (Universal Subscriber Identity Module Card) 110 and a financial card ( 120) is built.

The USIM card 110 installs an applet necessary for mobile communication of the mobile phone 200, and is a contact IC card that can directly communicate with the mobile phone 200. The USIM card 110 may not directly communicate with the payment reader 300.

The financial card 120 installs an applet (eg, a mobile payment card) required for mobile payment using the payment reader 300, and directly communicates with the payment reader 300 in a non-contact manner (for example, NFC (Near Field Communication) capable contactless IC card (Contactless IC Card). The financial card 120 cannot directly communicate with the mobile phone 200.

However, the financial card 120 may be indirectly communicated with the mobile phone 200 through the USIM card 110. That is, by the relaying of the USIM card 110, the financial card 120 can be indirectly communicated with the mobile phone 200, the USIM card 110 serves as a bridge between the financial card 120 and the mobile phone 200. Because As will be described later in detail, the USIM card 110 has an applet to act as a bridge.

For the bridge role, the USIM card 110 is communicatively coupled with the financial card 120. In detail, the USIM card 110 and the financial card 120 perform connection, communication, and security according to the ISO 7816 standard.

Physically, 1) "GPIO (General Purpose Input / Output) 1" port of USIM card 110 and "RESET" port of financial card 120 are connected, and 2) "CLK" of USIM card 110 is connected. The port is connected to the "CLK" port of the financial card 120, and 3) the "IO (Input / Output) 1" port of the USIM card 110 and the "IO0" port of the financial card 120 are connected.

Accordingly, 1) the reset signal "RST" received from the mobile phone 200 to the "RESET" port of the USIM card 110 is "RESET" of the financial card 120 through the "GPIO1" port of the USIM card 110. "Forwarding to the port is possible.

2) The clock "CLK" transmitted from the mobile phone 200 is transferred to both the "CLK" port of the USIM card 110 and the "CLK" port of the financial card 120. Meanwhile, the USIM card 110 may control the switching of the switch SW through the GPIO2 to transfer / block the clock “CLK” to the “CLK” port of the financial card 120.

If communication between the USIM card 110 and the financial card 120 is required, the USIM card 110 switches on the switch SW to transfer the clock "CLK" to the financial card 120, but the USIM card 110 When the communication between the financial card 120 and the financial card 120 is not necessary, the USIM card 110 switches off the switch SW and does not transmit the clock “CLK” to the financial card 120.

In addition, 3) the USIM card 110 transmits a command received from the mobile phone 200 through the "IO0" port to the "IO0" port of the financial card 120 through the "IO1" port, while "IO1". Data transmitted from the "IO0" port of the financial card 120 through the "port" to the mobile phone 200 through the "IO0" port.

In the communication between the USIM card 110 and the financial card 120, the USIM card 110 acts as a master and the financial card 120 acts as a slave. Accordingly, the USIM card 110 operates like the mobile phone 200 with respect to the financial card 120, and the financial card 120 recognizes the USIM card 110 as the mobile phone 200.

For this purpose, the software architecture of the USIM card 110 and the financial card 120 is shown in FIG. 3 will be described in detail.

The NAA Applet 111 is an applet installed for the USIM function, and the Java Card Applet 113 is an applet installed for other additional services.

Java Card Runtime Environment (114), Java Card API (116), Java Card Virtual Machine (117), and ISO 7816 I / O Communication (Slave) 118 allow the USIM card 110 to communicate with the mobile phone 200. These are the modules needed to function as a card.

Meanwhile, the hatched Transfer Applet 112, the I / O Master API 115, and the ISO 7816 I / O Communication (Master) 119 have a USIM card 110 between the mobile phone 200 and the financial card 120. These are the modules needed to act as a bridge in.

Transfer Applet 112 functions as one applet for mobile phone 200. Therefore, the mobile phone 200 may transmit a command through the ISO 7816 I / O Communication (Slave) 118 after selecting the Transfer Applet 112 (the solid line portion of FIG. 3).

The command transmitted from the mobile phone 200 to the NAA Applet 111 or the Java Card Applet 113 is a command for the USIM card 110, while the command transmitted from the mobile phone 200 to the Transfer Applet 112 is This command is for the Finance Card Applet 121 of the financial card 120 rather than the USIM card 110.

Therefore, the Transfer Applet 112 does not process this command directly, but transfers it to the Finance Card Applet 121 of the financial card 120. Command transfer is performed by the ISO 7816 I / O Communication (Master) 119 operating as a master in communication with the financial card 120 according to the ISO 7816 standard (the solid line portion of FIG. 3).

I / O Master API 115 functions as an interface that allows Transfer Applet 112 to use ISO 7816 I / O Communication (Master) 119.

The Transfer Applet 112 receives the response data for the command from the Finance Card Applet 121 of the financial card 120 through the ISO 7816 I / O Communication (Master) 119, and the ISO 7816 I / O Communication ( Slave) 118 is delivered to the mobile phone 200 (dotted portion of Figure 3).

As described above, the Transfer Applet 112 transfers the command received from the mobile phone 200 to the financial card 120 and transmits response data for the command received from the financial card 120 to the mobile phone 200. An applet that performs the function of passing.

The Finance Card Applet 121 installed in the financial card 120 is an applet for payment, additional services, and the like. Java Card Runtime Environment (122), Java Card API (123), Java Card Virtual Machine (124), and ISO 7816 I / O Communication (Slave) 125, financial card 120 is a payment reader 300 and mobile These modules are required to function as an IC card for the phone 200.

The ISO 7816 I / O Communication (Slave) 125 actually acts as a slave to the ISO 7816 I / O Communication (Master) 119 of the USIM card 110, while the financial card 120 is the USIM card 110. Since it is recognized as a mobile phone 200, it can be seen that the logical ISO 7816 I / O Communication (Slave) 125 operates as a slave of the mobile phone 200.

Hereinafter, a process of performing communication between the mobile phone 200 and the financial card 120 by relaying the USIM card 110 will be described in detail with reference to FIG. 4. 4 is a view provided to explain a communication method between the dual IC card 100 and the mobile phone 200 according to another embodiment of the present invention.

As shown in FIG. 4, when the mobile phone 200 to transmit a command to the Finance Card Applet 121 of the financial card 120 first selects the Transfer Applet 112 of the USIM card 110 (S410). The Transfer Applet 112 of the USIM card 110 recognizing this returns a Success to the mobile phone 200 (S420).

Thereafter, the mobile phone 200 transmits a command to the USIM card 110, and this command received in the ISO 7816 I / O Communication (Slave) 118 is transferred to the Transfer Applet 112, which is an applet selected in step S410. It is transmitted (S430).

The structure of the command transmitted from the mobile phone 200 to the transfer applet 112 in step S430 is shown by a short dotted line below. As shown in the figure, it can be seen that CLA, INS, P1, P2, Lc and Data are recorded. Since CLA, INS, P1, P2, and Lc are defined in the ISO 7816 standard, detailed descriptions are omitted.

Meanwhile, the Data field contains a command shown by a long dotted line, which is a command for the Finance Card Applet 121 of the financial card 120.

Accordingly, the Transfer Applet 112 extracts only the long dotted line command recorded in the data from the short dotted line command received in step S430, and transfers it to the Finance Card Applet 121 of the financial card 120 (S440).

In step S440, the ISO 7816 I / O Communication (Slave) 125 is transferred using the ISO 7816 I / O Communication (Master) 119 which the Transfer Applet 112 calls to the I / O Master API 115. Through the command to the Finance Card Applet (121).

Thereafter, when the Finance Card Applet 121 transmits the response data for the command to the Transfer Applet 112 (S450), the Transfer Applet 112 transfers the received response data to ISO 7816 I / O Communication (Slave) 118. Transfer to the mobile phone 200 through (S460).

Using the procedure shown in FIG. 4, the mobile phone 200 commands the Finance Card Applet 121 to return information related to the financial settlement card (issuance information, usage information, balance information, etc.) through the USIM card 110. Can be obtained.

Meanwhile, in steps S440 and S450, since the financial card 120 recognizes the USIM card 110 as the mobile phone 200, the command received through the step S440 is recognized as being received from the mobile phone 200. .

Thus, there is no hardware / software module added to the financial card 120 side for communication with the USIM card 110. In addition, the communication standard between the mobile phone 200 and the USIM card 110, as well as the communication standard between the USIM card 110 (mobile phone 200) and the financial card 120 comply with the existing ISO 7816 standard.

Therefore, the Transfer Applet 112, the I / O Master API 115, and the ISO 7816 I / O Communication (Master) 119, which are hatched from the USIM card 110, are added, and the mobile phone 200 is finance card Applet. The above communication method can be implemented by adding a process of recording the command to be transmitted to 121 in the data portion of the command to be transferred to the Transfer Applet 112.

5 is a detailed block diagram of the mobile phone 200 shown in FIG. As shown in FIG. 5, the mobile phone 200 includes a communication unit 210, a touch screen 220, a processor 230, a memory 240, and an IC card interface 250.

The communication unit 210 is a means for mobile communication and wireless networking, and provides a voice telephone, a wireless Internet service, and the like. The touch screen 220 functions as a display means for displaying visual information, and as a user interface means for receiving a user command.

The memory 240 is a storage medium in which software and data for the mobile phone 200 are stored. The IC card interface 250 provides a physical interface on which the dual IC card 100 is mounted and a communication interface for communicating with the dual IC card 100.

The processor 230 controls the overall operation of the mobile phone 200. In particular, in connection with the present embodiment, the processor 230 performs the procedures performed by the mobile phone 200 among the procedures shown in FIG. 4.

So far, the present invention has been described in detail with reference to preferred embodiments of the communication method between the mobile phone 200 and the financial card 120 by the relaying of the USIM card 110 and the dual IC card 100 enabling the same.

In the above embodiment, the command to be transmitted from the mobile phone 200 to the Finance Card Applet 121 is encrypted so that it can be decrypted with the security key of the Finance Card Applet 121, and then recorded in the data portion of the command to be transmitted to the Transfer Applet 112. Can be implemented. In this case, the contents of the command to be transmitted from the mobile phone 200 to the Finance Card Applet 121 may be kept secret with respect to the USIM card 110. This may be similarly applied to the response data transmitted from the Finance Card Applet 121 to the mobile phone 200.

Meanwhile, the Java Card Applet 113 of the USIM card 110, not the mobile phone 200, transmits the command generated for itself to the Finance Card Applet 121, and the response data for the command is sent to the Finance Card Applet ( It is also possible to add a function received from 121).

In addition, in the above embodiments it is assumed that the USIM card 110 relays the communication between the mobile phone 200 and the financial card 120, the technical concept of the present invention can be applied to the reverse case. Specifically, the technical concept of the present invention is applicable to the case where the financial card 120 relays the communication between the USIM card 110 and the payment reader 300. In this case, the financial card 120 transmits the command of the payment reader 300 to the USIM card 110, and transmits the data received from the USIM card 110 to the payment reader 300 in response to the command. Will be delivered. However, for this purpose, it is required to add a Transfer Applet, an I / O Master API, and an ISO 7816 I / O Communication (Master) to the financial card 120.

Meanwhile, the USIM card 110 and the financial card 120 mentioned in the above embodiments are examples assumed for convenience of description. The technical idea of the present invention is also applicable to the case where at least one of these is replaced by another type of IC card.

Similarly, since the mobile phone 200 and the payment reader 300 are also merely examples for convenience of description, the technical idea of the present invention may be applied to the case where the mobile phone 200 and the payment reader 300 are replaced with other types of terminal devices.

In addition, the technical idea of the present invention is irrespective of the number of IC cards embedded together. That is, the technical idea of the present invention can be applied to a dual IC card in which two IC cards are embedded, as well as to a multi-IC card in which three or more IC cards are embedded.

It goes without saying that the technical idea of the present invention can also be applied to a computer-readable recording medium having a computer program for performing the functions of the apparatus and method according to the present embodiment. In addition, the technical idea according to various embodiments of the present invention may be embodied in computer-readable code form recorded on a computer-readable recording medium. The computer-readable recording medium is any data storage device that can be read by a computer and can store data. For example, the computer-readable recording medium may be a ROM, a RAM, a CD-ROM, a magnetic tape, a floppy disk, an optical disk, a hard disk drive, or the like. In addition, the computer readable code or program stored in the computer readable recording medium may be transmitted through a network connected between the computers.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is to be understood that the invention is not limited to the disclosed exemplary embodiments, but, on the contrary, It will be understood by those skilled in the art that various changes in form and details may be made therein without departing from the spirit and scope of the present invention.

100: dual IC card 110: USIM card
112: Transfer Applet 115: I / O Master API
119: ISO 7816 I / O Communication (Master)
120: Finance Card 121: Finance Card Applet
200: mobile phone 300: payment reader

Claims (14)

A first integrated circuit card (IC) card in direct contact with the first terminal device; And
And a second IC card incapable of direct communication with the first terminal device and capable of communicating with the first terminal device through the first IC card.
The second IC card may be in direct contactless communication with a second terminal device, and the first IC card may not be in direct communication with the second terminal device.
The first IC card is an IC card required for a first service provided by the first terminal device, and the second IC card is an IC card required for a second service using the second terminal device.
At least one of the I / O ports of the first IC card and at least one of the I / O ports of the second IC card are directly connected through a line, so that the first IC card and the second IC card A multi-IC card, which communicates directly without passing through the first terminal device.
delete delete delete The method according to claim 1,
In communication between the first IC card and the second IC card,
And the first IC card acts as a master and the second IC card acts as a slave.
6. The method of claim 5,
In communication between the first IC card and the second IC card,
And the second IC card recognizes the first IC card as the first terminal device.
The method according to claim 1,
The first IC card,
A first applet is provided which transmits a command received from the first terminal device to the second IC card and transmits data received from the second IC card to the first terminal device in response to the command. Multiple IC card, characterized in that.
8. The method of claim 7,
The first applet,
And transmitting a command transmitted to the first IC card to the second IC card after the first terminal apparatus selects itself.
8. The method of claim 7,
And a second applet installed in the first IC card to transmit its command to the second IC card and receive data from the second IC card in response to the command.
delete The method according to claim 1,
The multiple IC card is mounted on the first terminal device and used.
The first IC card,
An IC card in which an applet necessary for a first service provided by the first terminal device is installed;
The second IC card,
And an IC card in which an applet necessary for a second service using the second terminal device is installed.
12. The method of claim 11,
The first IC card is a SIM card (Subscriber Identity Module Card),
The second IC card is an IC card issued with a card for financial settlement,
The first IC card,
Sending a reply command to the second IC card to the second IC card in response to the command, and sending the related information received from the second IC card in response to the command; Multiple IC card, characterized in that the transmission to the device.
Contacting, by the first integrated circuit card (IC) card included in the multiple IC card, a direct communication with the first terminal device; And
And a second IC card included in the multi-IC card and unable to directly communicate with the first terminal device, communicating with the first terminal device through the first IC card.
The second IC card may be in direct contactless communication with a second terminal device, and the first IC card may not be in direct communication with the second terminal device.
The first IC card is an IC card required for a first service provided by the first terminal device, and the second IC card is an IC card required for a second service using the second terminal device.
At least one of the I / O ports of the first IC card and at least one of the I / O ports of the second IC card are directly connected through a line, so that the first IC card and the second IC card And a communication method between the multiple IC card and the terminal device, characterized in that the communication is performed directly without passing through the first terminal device.
Contacting the first terminal device in direct contact with the first IC card included in the multiple IC card; And
And communicating, by the first terminal device, with the second IC card included in the multi-IC card and unable to communicate directly with the first terminal device through the first IC card.
The second IC card may be in direct contactless communication with a second terminal device, and the first IC card may not be in direct communication with the second terminal device.
The first IC card is an IC card required for a first service provided by the first terminal device, and the second IC card is an IC card required for a second service using the second terminal device.
At least one of the I / O ports of the first IC card and at least one of the I / O ports of the second IC card are directly connected through a line, so that the first IC card and the second IC card And a communication method between the multiple IC card and the terminal device, characterized in that the communication is performed directly without passing through the first terminal device.

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