KR20040025318A - RF card having a dual ID - Google Patents

Abstract

PURPOSE: An RF(Radio Frequency) card having a dual ID is provided to independently use two different RF IDs to each application used for a differed purpose. CONSTITUTION: The first ID area(10-1) is formed by the first IC chip(11) and the first antenna(12). In the first area, the second ID area(20-1) is formed by the second IC chip(21) and the second antenna(22). The first antenna forming the first ID area is arranged by winding a coil along the outermost edge of the card as avoiding an embossed area of a card number. The second antenna forming the second ID area is arranged to an upper space of the card by avoiding an embossed area of a card number. A card information modulating/demodulating method of the first and the second IC chip is designed differently with each other.

Description

RF card having a dual ID

The present invention relates to an RF card, and more particularly, to an RF card having a dual ID that can be used independently in each application by assigning two different RF IDs to one card.

As is well known, an RF card contactlessly accessed to a card terminal has an IC chip and an antenna coil connected to the IC chip, but does not have its own battery. There must be a power supply from.

Power supply from the outside for the operation of the RF card is made by radiated electromagnetic waves from the RF card terminal antenna induced by the antenna coil inside the card, and also through the internal antenna coil of the RF card and the antenna of the card terminal. Information between the IC chip and the RF card terminal is exchanged without contact.

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 two or more RF card systems. In order to use it, a large number of RF cards for the RF card system had to be carried.

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, when accessing any RF card terminal with two or more RF cards in the wallet, all two or more RF cards are active, so each RF card transmits its own unique information to the RF card terminal. Since the terminal generates a recognition or access error, there is an inconvenience in that the RF card access operation must be repeated 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 two RF IDs of different uses to one card. It is to provide an RF card with a dual ID.

Another object of the present invention is that when the RF card mounted with two 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. However, the RF card terminal provides an RF card having a dual ID such that only the data of the related RF card can be accurately read and written without a collision error of the card data.

1 is a conceptual diagram of a dual ID card of the present invention.

2 is an exploded structural diagram of an embodiment of a dual ID card of the present invention.

3 is an exploded structure diagram of another embodiment of the dual ID card of the present invention.

4 is an internal circuit diagram of the dual ID card of the present invention.

FIG. 5 is a block diagram illustrating a multiple access system with two RF card terminals having different data modulation schemes using the dual ID card of the present invention.

※ Explanation of symbols about main part of drawing ※

10: first RF sheet 10-1: first ID area

11: first IC chip 12: first antenna

13,23: operating voltage storage unit 14,24: variable demodulation unit

15,25 control unit 16,26 memory unit

20: second RF sheet 20-1: second ID area

21: second IC chip 22: second antenna

30,31: plastic cover 35: character embossing area

40: integrated RF sheet 50: dual ID card

60,70: RF card terminal

The dual ID card of the present invention is configured such that the first ID region is formed by the first IC chip and the first antenna, and the second ID region having a small size is formed by the second IC chip and the second antenna in the first ID region. The first antenna for creating the first ID region is disposed by winding a coil along the edge of the card body, avoiding the card number embossing region of the RF card, and the second antenna for creating the second ID region is a card of the RF card. The card information modulation and demodulation method of the first IC chip and the second IC chip is designed in a different manner (ASK method and FSK method) by avoiding the number embossing part.

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

1 is a conceptual diagram for explaining the structure of the dual ID card 50 of the present invention.

As referred to herein, the dual ID card of the present invention is configured such that the first ID region 10-1 is formed by the first IC chip 11 and the first antenna 12, and again, the small ID in the first ID region. The second ID area 20-1 of size is formed by the second IC chip 21 and the second antenna 22.

The first antenna 12 forming the first ID region 10-1 is arranged so as to take a coiled shape along the edge of the card main body, preferably a letter embossing region of an RF card, particularly a contactless credit card ( 35) so as not to overlap.

In addition, the second antenna 22 forming the second ID area 20-1 is disposed above the double ID card 50, avoiding the card number embossing portion.

2 is an exploded perspective view for explaining an example of the structure of the dual ID card of the present invention, wherein the first IC chip 11 and the first antenna 12 between the upper and lower plastic covers 30 and 31 forming the card base. It is shown that the first RF sheet 10, the second IC chip 21 and the second antenna 22 of the thin film on which the thin film is installed) are aligned and arranged side by side at a predetermined position.

That is, the first IC chip 11 and the first antenna 12 forming the first ID region 10-1 are designed on the first RF sheet 10, which is substantially the size of the card body, and the second ID region 20. The second IC chip 21 and the second antenna 22 making -1) are designed independently on the second RF sheet 20 of smaller size than the first RF sheet.

The actual size of the second RF area by the second RF sheet 20 is designed to be 22.5 mm x 38.0 mm, which is sufficient to be installed in the remaining space except for the text embossing area 35 such as the card number.

Each of the first and second RF sheets 10 and 20 are arranged side by side in the card to be made of an RF card having a dual ID.

3 is an exploded perspective view of the dual ID card of the second embodiment for explaining another example of the structure of the dual ID card of the present invention, wherein the first IC chip is formed between the upper and lower plastic covers 30 and 31 constituting the card base. (11) and the first antenna 12, the second IC chip 21 and the second antenna 22 are arranged side by side at a predetermined position on a single integrated RF sheet (40).

That is, the first IC chip 11 and the first antenna 12 forming the first ID region 10-1, the second IC chip 21 and the second antenna 22 forming the second ID region 20-1. ) Is integrally designed on one integrated RF sheet 40, which is substantially the size of the card body.

4 is an internal circuit diagram of the dual ID card 50 of the present invention, wherein the voltage induced by the first antenna 12 is stored in the operating voltage accumulating unit 13 (for example, in the ASK modulation method). The first IC chip 11 including the modulation and demodulation unit 14, the control unit 15, and the memory unit 16 is supplied with an operating voltage, and the RF card terminal and the first IC are connected through the first antenna 12. It is configured to exchange data between chips in a non-contact method (wireless method).

In addition, the voltage induced by the second antenna 22 is stored in the operating voltage accumulating unit 23 to the demodulation unit 24 (for example, FSK modulation method), the control unit 25, and the memory unit 26. The second IC chip 21 is configured to be supplied with an operating voltage, and the second antenna 22 is configured to exchange data between the RF card terminal and the second IC chip in a non-contact manner.

The operation of the dual ID card 50 of the present invention configured as described above will be described with reference to FIG.

FIG. 5 is a block diagram illustrating a multiple access system with RF card terminals having different data modulation schemes using the dual ID card of the present invention. First, the dual ID card 50 of the RF scheme is connected to the RF card terminal. Approaching near the antenna of 60 or 70, induced electromotive force is generated in the first and second antennas 12 and 22 of the dual ID card 50 of the RF type by the electromagnetic waves radiated from the antenna, respectively. The first and second IC chips 11 and 21 are activated by the RF card circuit operating voltage accumulated in the voltage accumulators 13 and 23 and accumulated therein.

When the first and second IC chips 11 and 21 are activated in this manner, the first and second IC chips 11 and 21 may transmit their RF card information (or label information when it is an RF label) to the respective modulators 14 and 24. And modulate the signal through the first and second antennas 12 and 22 to transmit to the corresponding RF card terminal 60 or 70, respectively.

In this case, since the modulation and demodulation schemes of the first and second IC chips 11 and 21 are designed differently from each other (ASK scheme and FSK scheme), the corresponding RF card terminal only modulates the card information of the modulation scheme demodulated by its own demodulation scheme. Will be read.

That is, if the RF card terminal accessed by the dual ID card 50 is the ASK modulation / demodulation RF card terminal 60, the (RF label) data exchange is not performed with the second IC chip 21 in the dual ID card 50. Instead, data exchange is performed only with the first IC chip 11 (RF card), so that information processing is normally performed.

For example, when the dual ID card 50 of the present invention is a dual-type RF card using an RF label for a traffic card of ISO 14443A type and an RF label for logistics and membership of an ISO 15693 type, a traffic card of ISO 14443A type Approaching the dual ID card 50 of the present invention to the RF card terminal 60 for the read / write, the RF card terminal 60 is the antenna of the data contained in the first IC chip 11 inside the dual ID card 50 61 through the modulation and demodulation module 62 of the ASK method.

The information received in this way is subjected to security authentication by the SAM (67), and according to the control of the CPU (63), the charges are collected through the use charge collection system (64), and the use charge collection status is displayed through the display unit (66). It displays and exchanges the collection information and transaction approval information with the upper level aggregation computer or the center computer side through the communication interface device 65.

In this case, another logistics or membership RF card (or label) inside the dual ID card 50 has different data modulation / demodulation method (ISO 15693 type: FSK method), and is an ISO 14443A type RF card terminal (60) of ASK method. ), The data of the second IC chip 21 cannot be read, and data collision between the dual IDs does not occur.

Similarly, the second IC chip 21, which is an FSK modulation ISO 15693 RF label, includes an antenna 71, an FSK modulation module 72, a controller 73, an authentication module 74, a memory 76, and a communication interface. Since the data of the RF card (or label) can be exchanged only between the second RF card terminal 70 including the device 75 and the like, and the RF card (or label) for membership purposes, the traffic card function With the first IC chip 11, stable RF card (label) authentication and data processing can be performed without data collision.

That is, in the present invention, even if the data of the RF card or the RF label is the same digital data, each modulation and demodulation method is different, so even if the signal sequences of the two modulation or demodulation methods are transmitted and received simultaneously, mutual data collision does not occur. .

On the other hand, in the case of operating the dual ID card to use the first RF ID for the traffic card and membership card or access card of the second RF ID, by setting the wireless recognition distance of any one RF card to a long ID It can support the card user's separate use.

This increases the size of the antenna mounted on the RF card terminal of any one of the original card to ID, and can simply set the recognition distance of the RF card differently.

As described above, the present invention can be operated by giving two IDs in one RF card, so that a membership card function can be given to an RF credit card or RF electronic money card including a traffic card function. It brings the effect of solving the inconvenience of the user having a large number of RF cards by use and function.

In addition, the present invention, there is no error in the RF card read, bringing the advantage that can utilize the existing card reader network infrastructure as it is, without having to design a unique RF card system.

By using the dual-ID RF card of the present invention, it is possible to accumulate and use mileage points through authentication on a credit transportation card or electronic money transportation card, as well as offline, and participate in various events (theatres, restaurants) and exhibitions. It can be useful for qualification, access card of apartment or office, amusement park card and condo membership card.

Claims (3)

The first ID region 10-1 is formed by the first IC chip 11 and the first antenna 12, and the second ID region 20-1 of small size is formed in the first ID region. The first antenna 12, which is formed by the 21 and the second antenna 22 and forms the first ID region 10-1, avoids the card number embossing region of the RF card near the edge of the card body. The second antenna 22, which is formed by winding a coil along the second ID area 20-1, is disposed in the upper margin of the card, avoiding the card number embossing portion of the RF card, and the first IC chip ( 11) and the card information modulation and demodulation method in the second IC chip 21 is an RFID card having a dual ID, characterized in that designed in different ways (ASK method and FSK method). The first IC chip 11 and the first antenna 12 forming the first ID region 10-1 are designed on the first RF sheet 10 having a substantially card body size, and the second ID. The second IC chip 21 and the second antenna 22 forming the region 20-1 are each independently designed on the second RF sheet 20 having a smaller size than the first RF sheet. RF card. 2. The first IC chip 11 and the first antenna 12 to form the first ID region 10-1, and the second IC chip 21 and the second to form the second ID region 20-1. The antenna card having a dual ID, characterized in that the antenna 22 is designed integrally on the integrated RF sheet 40 substantially the size of the card body.