KR100964478B1 - Multi RF Card - Google Patents

Abstract

An object of the present invention is to provide a multi-RF card that can be used independently in a number of applications by giving a plurality of RF ID to a single RF card.

The multi-RF card of the present invention is an RF card composed of an antenna coil and an IC chip, wherein two or more IC chips 10-1, 10-2, one antenna coil 12 mounted inside the RF card. .... 10-n) is connected in parallel and the IC chips 10-1, 10-2, .... 10-n are simultaneously active in a non-contact manner by radio waves radiated from the antenna of the RF card terminal. Each IC chip 10-1, 10-2,... 10-n, which is simultaneously activated by radio waves on the RF card terminal side, has the card information of each IC chip unit. RF modulators 14, 17, and 20 are provided for modulating and demodulating the digital card information of each IC chip into analog information so as to communicate with the terminal in a non-contact manner. Different modulation and demodulation methods (ASK, FSK, PSK, etc.) are designed to exchange data only at specific RF card terminals for each IC chip (10-1,10-2, .... 10-n). It is characterized by.

RF Card, RF Card Terminal, Multi, Access, Antenna

Description

Multi RF card {Multi RF card}

1 is a block diagram of a conventional contactless RF card.

2 is a block diagram of a hybrid card in which a conventional contact card and a contactless card are combined into a single card.

3 is a configuration diagram of a combination card combining a conventional contact card and a contactless card into a single card.

4 is a configuration diagram of an embodiment of a multi-RF card of the present invention.

5 is an internal circuit diagram of an embodiment of a multi-RF card of the present invention.

6 is a block diagram illustrating a multiple access scheme with RF card terminals having different data modulation schemes using the multi-RF card of the present invention.

[Description of Reference Numerals]

10,10-1 to 10-n: IC chip 12,12-1 to 12-n: Antenna coil

13,13-1 to 13-n: operating voltage accumulator 14,17,20: modulated demodulator

15,18,21: control unit 16,19,22: memory unit

50: multi-RF card 60,70: RF card terminal

The present invention relates to an RF card, and more particularly, to a multi-RF card that provides a plurality of RF IDs to a single card so that an operating system and an authentication system can access a plurality of RF system terminals as one RF card. .

Recently, IC cards applied to credit cards, electronic money cards or various membership cards are classified into contact IC cards and contactless IC cards.

1 is a configuration diagram of a conventional non-contact RF card, in which an antenna coil 12 and an IC chip 10 are connected to an inside of the card. In the operation of the non-contact RF card, when the carrier wave of the card terminal is received by the antenna coil 12, the IC chip 10 is activated by using the induced electromotive force generated at the antenna coil, and the IC chip 10 is activated. The card information modulated by the RF signal is transmitted to the card terminal through the antenna coil 12. In addition, the modulated data transmitted from the card terminal side to the RF card side is demodulated by the modulation and demodulation unit inside the IC chip and recorded in the memory inside the RF card through the control unit.

2 is a configuration diagram of a hybrid card in which a conventional contact card and a contactless card are coupled to a single card. The contact of the contactless IC chip 10 and the contact terminal 30 is provided on the antenna coil 12 on a single card. The IC chips are mounted separately from each other.

The hybrid card is installed and operated separately from the contact IC chip and the contactless IC chip.

3 is a configuration diagram of a combination card, a relatively advanced contact / contactless combination card, in which one IC chip is coupled to a contact terminal 30 and an antenna coil 12 to share a memory. .

On the other hand, an RF card contactlessly accessed by a card terminal has an IC chip and an antenna coil connected to the IC chip inside the card, but does not have its own battery. Therefore, in order to drive the IC chip inside the RF card, power must be supplied from the outside. The RF card uses an antenna coil mounted inside the card.

The IC coil drives the IC chip with induced electromotive force generated when the radiated electromagnetic wave from the antenna of the RF card terminal is received in the antenna coil, and also through the internal antenna coil of the RF card and the antenna of the card terminal. Information between terminals is exchanged contactlessly.

When applying such RF card system to credit card or transportation card, RF card access tool with complicated algorithm is applied to RF card terminal to maintain the security and security of financial transaction. When applied to a control system or a membership management system, a standard RF card terminal for a normal access control that simply reads the ID of the access control or membership RF card and authenticates and fills in necessary data is sufficient.

In this way, since RF card is applied to credit card system, traffic card system, access control system, membership management system independently with its own security algorithm or authentication method for each application, one person uses multiple RF card systems. If you want to use it, you have to carry as many RF cards as you need to access the RF card system.

Accordingly, when one person wants to use two or more RF card systems, inconveniences of having to carry a separate RF card for each application or application system appear.

In particular, if the card issuer is applied to the same system in the wallet, but the card issuer is different, two or more RF cards (for example, a transportation card) will be held. Since all the cards are active (the same algorithm is applied in the case of traffic cards, data collisions occur frequently), each RF card transmits its own information to the RF card terminal at the same time. As a result, the inconvenience of having to repeat the RF card access operation until the terminal reads an RF card that can be recognized by the terminal normally.

The present invention is to solve the problems appearing when using a plurality of conventional RF card as described above, the object of the present invention can be used independently in each application by giving a plurality of RF IDs of different uses to one card. To provide a multi-RF card.

Another object of the present invention is that when the RF card mounted with two or more RF IDs on a single card approaches an arbitrary RF card terminal, two RF IC chips are activated at the same time to duplicate transmission of their own card data for each ID. Even if the RF card terminal to read only the data of the modulation and modulation method to provide a multi-RF card to prevent the collision of the card data.

In the multi-RF card of the present invention, in the RF card consisting of an antenna coil and an IC chip, two or more IC chips are connected in parallel to one antenna coil mounted inside the RF card to radiate from the antenna of the RF card terminal. The plurality of IC chips are simultaneously configured to be active simultaneously by contactless radio waves, and each IC chip activated simultaneously by radio waves on the side of the RF card terminal has card information for each IC chip unit. RF modulation and demodulation sections are provided for each IC chip to convert and demodulate digital card information into analog information so that they can be communicated in a non-contact manner. It is characterized in that the data exchange is made only in a specific RF card terminal for each chip.

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

4 is a structural diagram of a multi-RF card of the present invention, in which two or more IC chips 10-1, 10-2, .... 10- in one antenna coil 12 mounted inside the RF card. n is connected in parallel, and a plurality of IC chips have been shown to manufacture a multi-RF card 50 in the form of sharing one antenna coil.

5 is an internal circuit diagram of the multi-RF card 50.

As referred to herein, the voltage induced by the antenna coil 12 passes through the operating voltage accumulator 13 to the operating voltages of the respective IC chips 10-1, 10-2,... 10-n. The antenna coil 12 may further include a first IC chip 10-1 consisting of a modulation / demodulation unit 14, a control unit 15, and a memory unit 16, a modulation demodulation unit 17, and a control unit, respectively. (18), parallel to the second IC chip 10-2 composed of the memory unit 19, and the n-th IC chip 10-n composed of the modulation / demodulation unit 20, the control unit 21, and the memory unit 22; The card information of the corresponding IC chip 10-1, 10-2,... 10-n modulated by each modulation and demodulation unit 14, 17, and 20 is connected to the common antenna coil 12. The demodulation information transmitted to the RF card terminal side through the common antenna coil 12 from a specific RF card terminal side is transmitted to the demodulation unit of the corresponding demodulation unit 14, 17, 20. It is configured to be demodulated by.

The modulators 14, 17, and 20 adopt different digital data modulation and demodulation methods, for example, ASK (amplitude modulation), FSK (frequency modulation), and PSK (phase modulation), respectively. The modulation and demodulation method of digital data is designed differently.

Furthermore, each IC chip 10-1, 10-2,... 10-n further connects a contact terminal for communication with a contact reader to perform a function of a multi-combi card (multi smart card). Configure to

The operation of the multi-RF card 50, 50-1 of the present invention configured as described above will be described with reference to FIGS.

First, when the multi-RF card 50 of the present invention approaches the antenna of the RF card terminal 60 or 70, the multi-RF is caused by the electromagnetic waves radiated from the antenna 61 or 71 of the RF card terminal 60 or 70. In the antenna coil 12 of the card 50, induction electromotive force is generated and accumulated in the common operating voltage accumulating unit 13, and the IC chip circuit operating voltages accumulated therein are used for each IC chip 10-1, 10-2. ..... 10-n) are active at the same time.

When the IC chips are activated in this way, these IC chips use the respective controllers 15, 18, and 21 to convert the RF card information of each of the memory units 16, 19, and 22 into the respective modulators 14, 17. 20, and modulates the digital data to analog and then loads them on the RF and transmits them to the corresponding RF card terminal 60 or 70 through the common antenna coil 12.

At this time, the modulation method of the digital card information by the modulation and demodulation units 14, 17, and 20 of the IC chips 10-1, 10-2, ..., 10-n are different (ASK method, FSK method). And PSK method), the RF card terminal reads only the IC chip card information of the modulation method demodulated by its demodulation method.

That is, if the RF card terminal approaching the multi-RF card 50 is an ASK modulation / demodulation type RF card terminal 60, other IC chips 10-2, except for the IC chip 10-1 in the multi-RF card 50, 10-3, .... 10-n) is not exchanged with data. Only RF chip information is exchanged with IC chip 10-1.

For example, the IC chips 10-1 and 10-2 mounted on the multi-RF card 50 of the present invention are IC chips for ISO 14443A type and IC chips for logistics and membership type of ISO 15693, respectively. When the multi-RF card 50 approaches the ISO 14443A type traffic card lead / light RF card terminal 60, the RF card terminal 60 is a multi-RF card which is a modulation / demodulation method that can be read by itself. (50) Only card information stored in the internal IC chip 10-1 is received through the antenna 61 and the ASK modulation / demodulation module 62.                     

The received information is subjected to security authentication by the SAM (67), and then collects charges through the use charge collection system 64 under the control of the CPU 63, and also displays the use charge collection situation through the display unit 66. It is possible to display, and to exchange and collect payment information and transaction approval information and the like with the upper level aggregation computer or the center computer side through the communication interface device (65).

At this time, the card information generated by the other IC chip 10-2, 10-3, ... 10-n in the multi-RF card 50 is different in the RF card terminal 60 because the modulation and demodulation method is different. Since the card information of the chips cannot be read, there is no collision between IC chip data.

If the RF card terminal approaching the multi-RF card 50 is a terminal of a system employing the FSK modulation method, the digital card information of the IC chip 10-2 of the multi-RF card 50 is converted to the FSK method (ISO 15693). It is modulated and transmitted to the RF card terminal side.

Accordingly, the IC chip 10-2 card information of the multi-RF card 50 includes the antenna 71, the FSK modulation and demodulation module 72, the controller 73, the authentication module 74, the memory 76, The card information is exchanged with the second RF card terminal 70 including the communication interface device 75 and the like, and the IC chip 10-2 without a data collision with the IC chip 10-1 having a traffic card function. The card information contained in the) is authenticated and processed.

On the other hand, when the contact terminal (contact terminal) for supporting the contact point contact method with the reader is further provided in the above-described multi-RF card of the present invention, card access is made in the contact terminal as well as the non-contact terminal, It is possible to ensure the function of the multi-combi card to cover all the contactless and contact type from.

According to the present invention as described above, by attaching two or more IC chips in one RF card and assigning a plurality of RF IDs, it is possible to use a single card to allow multiple operating systems to be used in multiple systems. Brings effect.

In addition, since the present invention does not cause data collision or error when the RF card is read in the RF card terminal, the existing RF card reader network infrastructure for each system may be utilized as it is.

In addition, according to another embodiment of the present invention, a multi-type combi card function for accommodating both contactless and contact access methods is obtained.

Claims (2)

In the antenna of the RF card terminal by connecting two or more IC chips (10-1, 10-2, ... 10-n) in parallel to one antenna coil 12 mounted inside the RF card. The IC chips 10-1, 10-2,... 10-n are simultaneously configured to be contactless by radio waves radiated from each other, and are simultaneously activated by radio waves on the RF card terminal side. IC chip (10-1, 10-2, ... 10-n) converts and demodulates the digital card information of each IC chip into analog information so that the card information of each IC chip unit can communicate with the RF card terminal without contact. The modulation and demodulation sections 14, 17, and 20 are provided for the respective IC chips. 1, 10-2, .... 10-n) Multi-RF card, characterized in that configured to selectively exchange data only in a specific RF card terminal. delete

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