KR100864534B1 - Radio frequency identification card with esay security function - Google Patents

Abstract

A radio frequency identification card having a security function is disclosed.

The present invention provides an RF coil for converting a signal received from an RFID reader into electric power, an RF chip for converting power from the RF coil into power, an RF chip for transmitting and receiving data to and from the RFID reader using an antenna, and a plate-shaped package. And a security switch for connecting the RF coil and the RF chip when in the on position, and disconnecting the RF coil and the RF chip when in the off position. It provides a radio frequency identification card with a security function, characterized in that for connecting the RF coil and the RF chip for a time, after a predetermined time has elapsed to slide back to the off position.

According to the present invention, when using a security card using an RFID tag, by strengthening the security by turning on or off the security switch according to the security area or time, to prevent inadvertent duplication of payment in the payment card using the RFID tag It is possible to prevent accidental malfunction by cutting off the power of RFID card which is not used for a long time.

Description

Radio frequency identification card with esay security function

1 illustrates an internal structure of a radio frequency identification card with a security function according to an embodiment of the present invention.

Figure 2 shows the internal structure of a radio frequency identification card with a security function according to another embodiment of the present invention.

3 shows a side view of the radio frequency identification card in FIGS. 1 and 2.

4A to 4G illustrate examples of the security switch of FIGS. 1 and 2.

5A and 5B illustrate an RF chip connected to the security switch and the security switch of FIGS. 1 and 2.

6A and 6B illustrate an operation example of the security switch shown in FIGS. 5A and 5B.

7A and 7B illustrate an operation example when the security switch of FIGS. 1 and 2 has a timer function.

The present invention relates to radio frequency identification (RFID), and more particularly, to a radio frequency identification card having a security function and a tag read system using the same.

RFID refers to a radio frequency recognition technology that transmits and receives information using radio frequency from an RFID tag attached to an object and provides a related service. That is, the RFID system refers to a system for identifying individual products using radio frequency. Compared to RFID, the barcode requires the laser reader to be in direct contact with the barcode.However, RFID requires an antenna and an RFID tag to easily identify the product's information and insert the necessary information without touching the reader directly. It can store more information than barcode, and it is easy to attach and can transmit and receive long distance information.

The advantages of the RFID system are as follows. First, by providing a read / write function, various information can be updated. Second, by providing a transmission function, non-contact, remote information acquisition, non-metallic materials (mud, paint, oil, wood, water, etc.) can be transmitted. Third, it can be installed in an invisible place to provide freedom of installation. Fourth, virtually no maintenance costs are required and when the reuse rate is high, it is cheaper than barcodes, resulting in a cost advantage. Fifth, forgery and modulation are virtually impossible, resulting in high stability. Sixth, the information recognition rate may be high to obtain information of a moving object. Seventh, it is possible to acquire only specific information, so that only desired information can be collected from a plurality of RFID tag information. Due to these advantages, RFID systems are now being applied to short-range, low-speed systems such as simple access control, as well as long-distance high-speed systems such as automatic toll storage. It is expected that cards, IDs, etc. will be applied to new systems that are integrated into one.

Looking at the components of RFID, it consists of an RFID tag that can store data, an RFID reader that can read the data in RFID, and an antenna that transfers data in the middle. In an RFID (Radio Frequency Identification) system, an RFID tag operates by receiving power from a magnetic field generated from an RFID reader, and data is transmitted between the RFID tag and the RFID reader.

Data is exchanged between the RFID reader and the RFID tag in the following order.

First, an RFID tag enters into an RF (Radio Frequency) field generated by an RFID reader. Next, power is supplied to the RFID tag by the RF signal. The RF signal also contains commands and data, and the tag receives the data. Next, the RFID tag transmits its ID (serial number) and data to the RFID reader, and the RFID reader receives the data. Next, the RFID reader sends the received data to the host. Next, the host determines the next action according to the received data. The host then sends a command to the RFID reader. Finally, the RFID reader sends data to the RFID tag according to the command received from the host.

However, the conventional RFID tag is not able to turn off or shield the power to stop the communication with the RFID reader to provide information to the RFID reader even if you do not want, and the security is degraded when using the RFID tag as a security card There is a problem.

Therefore, the first technical problem to be achieved by the present invention, when using a security card using an RFID tag, to enhance the security according to the security area or time by a simple operation, to prevent inadvertent duplicate payment in the payment card using the RFID tag The present invention provides a radio frequency identification card having a security function capable of preventing accidental malfunctions by cutting off and storing power of an RFID card that has not been used for a long time.

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In order to achieve the first technical problem, the present invention provides an RF coil for converting a signal received from the RFID reader into power; An RF chip that uses power converted by the RF coil as a power source and transmits and receives data to and from the RFID reader using an antenna; And a security switch installed outside of the plate-shaped packaging and connecting the RF coil and the RF chip when in the on position, and disconnecting the RF coil and the RF chip when in the off position. If the position of the timer is connected to the RF coil and the RF chip for a predetermined time, after a predetermined time elapses, the radio frequency recognition card having a security function characterized in that the slide back to the off position to provide.

In addition, in order to achieve the first technical problem, the present invention is installed inside the plate-shaped packaging, the battery for generating power; An RF chip that uses power generated by the battery as a power source and transmits and receives data to and from the RFID reader using an antenna; And a security switch installed outside of the plate-shaped packaging and connecting the battery and the RF chip when in the on position, and disconnecting the battery and the RF chip when in the off position. If the position is in position, the battery and the RF chip is connected for a predetermined time, and after a predetermined time elapses, the radio frequency recognition card having a security function, characterized in that the slide back to the off position.

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The present invention improves the security vulnerability of the conventional RFID card. As an improvement method, a physical switch is attached to a power supply portion of the RFID tag to cut off the power. The switch may be configured in consideration of user usage patterns. The user can keep the switch on when using it. When the user stops using the RFID card, it can be turned off and stored.

Hereinafter, with reference to the drawings will be described a preferred embodiment of the present invention. However, embodiments of the present invention illustrated below may be modified in various other forms, and the scope of the present invention is not limited to the embodiments described below.

1 illustrates an internal structure of a radio frequency identification card with a security function according to an embodiment of the present invention.

A system using an RFID tag consists of an RFID tag, an RFID reader and middleware. The RFID reader is a device that transmits and receives a tag to read the information of the tag, and transmits the information collected from the RFID tag to the middleware. The middleware collects, controls, and manages identification code data continuously generated from the RFID reader. The middleware communicates with each other by forming a middleware network in a hierarchically organized and distributed structure. Middleware must be able to ensure interoperability with various reader interfaces, various code and network interworking, and various application platforms.

The RFID tag is composed of an RF chip (IC) 130, an antenna and a packaging 150.

Passive type RFID tags do not contain a battery. The RFID tag receives power from the RFID reader to operate the RF chip.

The RFID tag using a frequency band of 13.56 MHz or less uses an electromagnetic induction method. The basis of electromagnetic induction is similar to that of electromagnets. Electromagnets convert electricity into a force called magnetic force, but on the contrary, RFID tags convert magnetic force into electricity. Or it can be compared with a transformer (transformer) used as an electric circuit. The transformer receives the electromagnetic field generated by the coil on the one hand and converts it into electric power.

When the RFID reader transmits a signal combining power and data from the antenna coil, the tag side receives the signal, converts it into power for starting the RF chip 130, and extracts data components from the signal. .

The RF coil 110 is a pattern of a conductive material for generating a predetermined magnetic force for generating power from the signal received as described above while forming a circle or a spiral of spirals.

The power line 120 connects the RF coil 110 and the RF chip 130.

The RF chip 130 stores the identification code or information of the thing. The RF chip 130 is a chip for performing an RF card function. The RF chip 130 stores information or transmits and receives information to and from the RFID reader through an antenna. The antenna transmits and receives its information to the outside by itself at the request of the reader or according to the situation.

The security switch 140 connects or opens the disconnected power line 120 to turn the RF chip 120 on or off. The security switch 140 is installed outside the packaging 150, and connects the RF coil 110 and the RF chip 130 when in the on position, and the RF coil 110 and the RF chip 130 when in the off position. Disconnect).

Preferably, the security switch 140 connects the RF coil 110 and the RF chip 130 for a predetermined time when the timer is in the position of the timer, and slides to return to the off position after the predetermined time elapses. Can be configured. At this time, the security switch 140 has a spring connected to the side, it can be manufactured to slide from the position of the timer to the off position by the elasticity of the spring.

Preferably, the security switch 140 may be made of a comb pattern to prevent slipping.

The packaging 150 of the RFID tag is made of various shapes and materials according to the application field. When using an RFID tag as a security card, the packaging 150 is manufactured in a flat plate shape. Preferably, the packaging 150 may be manufactured by printing letters that visually indicate the on or off state for each position of the security switch.

Figure 2 shows the internal structure of a radio frequency identification card with a security function according to another embodiment of the present invention.

On the other hand, an active type RFID tag has a built-in battery.

The present invention can be applied to both the passive type and the active type.

The battery 210 is installed inside the packaging, stores electric charges, and generates power applied to the RF chip 230.

The RF chip 230 uses power generated by the battery 210 as a power source, and transmits and receives data to and from an RFID reader using an antenna.

The security switch 240 is installed outside the packaging 250 and connects the battery 210 and the RF chip 230 when in the on position, and connects the battery 210 and the RF chip 230 when in the off position. Disconnect

Preferably, the security switch 240 is configured to connect the battery 210 and the RF chip 230 for a predetermined time when the timer is in the position, and to slide back to the off position after the predetermined time elapses. Can be. At this time, the security switch 240 has a spring connected to the side, it can be manufactured to slide from the position of the timer to the off position by the elasticity of the spring.

The packaging 250 of the RFID tag is made of various shapes and materials according to the application field. When using an RFID tag as a security card, the packaging 250 is manufactured in a flat plate shape.

3 shows a side view of the RFID card in FIGS. 1 and 2.

The RF card of FIG. 3 includes an RF chip 330 surrounded by packaging and a security switch 340 exposed to the outside.

4A to 4G illustrate examples of the security switch of FIGS. 1 and 2.

4A shows the case where the security switch 440 is in the on position 451, and FIG. 4B shows the case where the security switch 440 is in the OFF position 452.

4C and 4D show an example in which the security switch 440 and the packaging 450 are fastened. 4C and 4D illustrate an example in which a groove is formed in the middle of the security switch 440 and the protrusion of the packaging 450 is fastened. The manner in which the security switch 440 and the packaging 450 are fastened can be easily changed by those skilled in the art.

4E shows an example of adding a timer position 453 to the security switch 440.

As shown in FIG. 4F, if the security switch 440 is moved from the on 451, off 452, and timer 453 printed on the packaging to the position of the timer 453, the security switch 440 as shown in FIG. 4G. ) Slides slowly to the position of off 452. At this time, the slide time of the security switch 440 is determined by the elastic modulus of the material having a restoring property by the spring or other elasticity connected to the security switch 440, the friction coefficient between the security switch 440 and the packaging.

When using a radio frequency identification card having a security switch 440 with a timer function as a traffic card or other payment card, if the security switch 440 is placed at the timer position only at the moment of payment, Duplicate payments can be prevented. In addition, since the security switch 440 to which the timer function is added supplies power to the RF chip for a predetermined time, it is convenient because the user does not have to hold the security switch 440 by hand.

5A illustrates a security switch 540 and a conductive material 541 attached to the bottom surface of the security switch according to the present invention.

5B shows a power line 520 and an RF chip 530 embedded in the security card. Supplying power to the power line 520 may be either the RF coil or the battery 510 as necessary.

6A and 6B illustrate an operation example of the security switch shown in FIGS. 5A and 5B.

FIG. 6A shows that the security switch 640 is in the off position and no power is supplied to the RF chip 630, but as in FIG. 6B, if the security switch 640 is moved to the on position, the metal or other conductivity The material 641 contacts the power line 620 so that power generated from the RF coil or the battery 610 is transmitted to the RF chip 630.

7A and 7B illustrate an operation example when the security switch of FIGS. 1 and 2 has a timer function.

7A and 7B, the thin electrode on the right is a power line 720 for supplying power to the RF chip 730 when the security switch 740 is in the on position.

The thick electrode on the left is a power supply line 760 for supplying power to the RF chip 730 when the security switch 740 is in the timer position.

When the security switch 740 moves to the position of the timer, as in FIG. 7A, the elastic spring 770 contracts and the conductive material 741 of the security switch 740 contacts the left electrode 760. . As time passes, the spring 770 expands and pushes out the security switch 740. The security switch 740 slides for a predetermined time while maintaining contact between the left electrode 760 and the conductive material 741, as shown in FIG. 7B. When the security switch 740 returns to the off position, the connections of the electrodes 720 and 760 are disconnected, and no power is supplied to the RF chip 730. Meanwhile, in order to automatically return the security switch 740 to the off position, a material having elasticity, that is, a spring, a spring, a roll film, or the like may be used in addition to the spring 770.

Although the present invention has been described with reference to one embodiment shown in the drawings, this is merely exemplary and will be understood by those of ordinary skill in the art that various modifications and variations can be made therefrom. However, such modifications should be considered to be within the technical protection scope of the present invention. Therefore, the true technical protection scope of the present invention will be defined by the technical spirit of the appended claims.

As described above, according to the present invention, when using a security card using an RFID tag, by strengthening the security by turning on or off the security switch according to the security area or time, and carelessness in the payment card using the RFID tag Redundant payments can be prevented, and the power supply of the RFID card that is not used for a long time is cut off and stored, thereby preventing inadvertent malfunctions.

Claims (10)

An RF coil converting a signal received from the RFID reader into power; An RF chip that uses power converted by the RF coil as a power source and transmits and receives data to and from the RFID reader using an antenna; And A security switch installed outside of the plate-shaped packaging and connecting the RF coil and the RF chip when in the on position, and disconnecting the RF coil and the RF chip when in the off position; The security switch is And the RF coil and the RF chip for a predetermined time when the timer is in the position of the timer, and slides and returns to the off position after a predetermined time has elapsed. delete The method of claim 1, The security switch is And a spring coupled to the side, the spring being slid from the position of the timer to the off position by the elasticity of the spring, the surface being made in the shape of a comb. delete A battery installed inside the plate-shaped packaging and generating power; An RF chip that uses power generated by the battery as a power source and transmits and receives data to and from the RFID reader using an antenna; And A security switch installed outside of the plate-shaped packaging and connecting the battery and the RF chip when in the on position, and disconnecting the battery and the RF chip when in the off position; The security switch is And the battery is connected to the RF chip for a predetermined time when the timer is in the position of the timer, and after a predetermined time has elapsed, the battery is slid and returned to the off position. delete The method of claim 5, wherein The security switch is And a spring coupled to the side, the spring being slid from the position of the timer to the off position by the elasticity of the spring, the surface being made in the shape of a comb. delete delete delete

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