KR101706592B1 - Fingerprint type radio frequency smart card with enhanced security function and control method thereof - Google Patents

Abstract

The present invention relates to a fingerprint recognition radio-frequency (RF) smart card with an enhanced security function and a control method thereof. The fingerprint recognition RF smart card has a CPU directly connected to a combination chip to execute a control operation, thereby preventing card information stored in the combination chip from being transmitted to the outside when the fingerprint information measured by a fingerprint sensor does not match the fingerprint information of a user. Accordingly, the fingerprint recognition RF smart card can prevent malfunction of the combination chip even in an environment where a card reader with a large transmission voltage is used or when approaching a card reader. The configuration of the fingerprint recognition RF smart card includes: a transceiver antenna which receives radio waves transmitted from the card reader and transmits the card information stored in the combination chip; antenna connection wires which individually branches from both ends of the transceiver antenna to be connected to both ends of the combination chip to transmit the card information of the combination chip to the transceiver antenna; an RF induction power conversion unit receiving output signals of the transceiver antenna to convert the output signals to DC power; a fingerprint sensor generating the fingerprint information regarding the finger coming in contact to transmit the generated fingerprint information to a CPU; the CPU which compares the fingerprint information transmitted from the fingerprint sensor and the fingerprint information of a user stored in a memory and transmits on/off signals through control signal wires to control the combination chip; and the combination chip which executes a control operation to transmit the stored card information to the transceiver antenna through the antenna connection wires upon receiving on signals from the CPU through the control signal wires.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fingerprint identification (RF) smart card and a control method thereof,

The present invention relates to a fingerprint identification RF smart card with enhanced security function and a control method thereof. More particularly, the present invention relates to a fingerprint identification And to a smart card technology having a security-enhanced circuit configuration such that card information is not leaked even in an environment where the output voltage of the card reader is large.

Cards used for payment purposes or for identification purposes are a means of storing data in an internal storage. In the past, magnetic cards were mainly used, but the information stored in magnetic stores is vulnerable to security, There is a disadvantage in that the amount of information contained in the IC chip is small. Recently, there is a tendency to use an IC card equipped with an IC chip having enhanced security and containing more information.

The IC card is classified into a contact card and a contactless card according to the contact method with the card terminal. A typical example of a non-contact type IC card is a radio frequency (RF) smart card. The method is configured to transmit data when the wireless signal is within a range of a predetermined distance from the card terminal. Typical applications of such RF smart cards are security cards, access cards, transportation cards, and credit cards.

However, there is a disadvantage that an RF smart card can be illegally used or copied by another person in the event of loss or theft. Recently, a fingerprint recognition RF smart card having a fingerprint sensor attached to an RF smart card has been provided.

When the user places the fingerprint on the fingerprint sensor, the smart card recognizes the RF smart card. When the fingerprint is detected, the RF power is applied to the inside of the smart card. It is determined that the user is a fraudulent user. If the fingerprint data is the same as the stored data, it is determined that the user is a normal user, and the card information is transmitted to the card reader so that the payment or identification authentication process is performed.

Hereinafter, a conventional fingerprint recognition RF smart card will be described. FIG. 5 is a schematic configuration diagram of an RF smart card having a conventional fingerprint sensor, and FIG. 6 is a diagram illustrating a malfunction of a switching circuit of an RF smart card having a conventional fingerprint sensor.

As shown in FIG. 1, when the first fingerprint reader RF smart card accesses the card reader, the first antenna provided in the smart card receives the RF radio wave transmitted from the card reader, Power supply to the smart card internal devices. The DC power source converted by the RF inductive power conversion unit is constituted so as to constantly supply power to the fingerprint sensor, the CPU and the combi chip through the power supply line.

And the combi chip is configured to transmit information stored in the combi chip to the card reader through the second antenna only when the switching circuit is operated by the CPU.

 The CPU verifies the fingerprint information sensed by the fingerprint sensor against the user fingerprint stored in the memory, and if it matches, the CPU turns on the switching circuit by applying the low voltage power instead of applying the high voltage power to the switching circuit, Circuit is connected and the combi chip information is transmitted. When the high voltage power is applied from the CPU, the switching circuit is turned off to block the circuit connection between the antenna and the combi chip. When the low voltage power is applied, the second antenna and the combi chip are connected and the card information of the combi chip is output.

However, in the conventional fingerprint recognition RF smart card configured as described above, since the radio wave transmitted from the card reader is converted into DC power and then the two power sources are always applied to the combi chip, The first antenna must be used only to apply power to the combi chip and the second antenna must be provided in order to transmit the card information so that the internal circuit is complicated and power management is not efficient.

In addition, in the above-described configuration, when the voltage of the switching circuit used for controlling the operation of the combi chip is instantaneously increased according to the approach distance to the card terminal or the card terminal having a large transmission radio wave is used, The second antenna circuit is connected to the combi chip and the card information is transmitted to the card terminal through the second antenna even though the switching circuit is turned off while the power is applied and the operation of the second antenna is cut off. .

That is, the switching circuit is required to transmit information only when the second antenna and the combi chip are connected to each other only when receiving the low voltage signal. When the radio wave of 13.56 MHz induced in the pattern of the second antenna is inputted at a high voltage, There is a structural problem that the CPU sends a signal that the card is not to be transmitted due to the occurrence of the passing through the structure but sends the card information of the Combi chip unintentionally, resulting in serious security.

Korean Patent Registration No. 10-0991883 (October 28, 2010) Korean Registered Patent Publication No. 10-1597799 (Feb. 19, 2016) Korean Registered Patent Publication No. 10-1597797 (Feb. Korean Registered Patent Publication No. 10-1613603 (Apr. 12, 2016)

In order to solve the above-described problems, an object of the present invention is to provide a method and apparatus for connecting a CPU directly to a combination chip so that card information stored in a combination chip is not transmitted to the outside when fingerprint information measured by a fingerprint sensor does not match fingerprint information of a user The present invention is to provide a fingerprint recognition RF smart card and a control method thereof that are enhanced in security so as not to cause a malfunction of a combination chip even in an environment where a card reader having a large delivery voltage or a proximity to a card reader is used.

It is another object of the present invention to provide a combi-chip having card information, which is configured such that a power source of the RF inductive conversion unit is not directly applied but is applied through a CPU, receives a radio wave transmitted from a card reader by one antenna, The present invention provides a fingerprint recognition RF smart card and a control method thereof that simplify the configuration of a smart card while reducing power consumption.

According to an aspect of the present invention, there is provided a radio communication system comprising: a transmission / reception antenna for receiving radio waves transmitted from a card reader and transmitting card information stored in a combination chip;

An antenna connection line connected to both ends of the combi chip branched at one point on both ends of the antenna for transmitting and receiving to transmit card information of the combi chip to the antenna for transmission and reception;

An RF inductive power conversion unit that receives an output signal of the antenna for transmitting and receiving and converts the output signal to a DC power;

A fingerprint sensor for generating contact fingerprint information after power is applied and transmitting the generated fingerprint information to the CPU;

A CPU for comparing the fingerprint information transmitted from the fingerprint sensor and the user fingerprint information stored in the memory and transmitting an On / Off signal for driving the combination chip through a control signal line according to whether the fingerprint information matches or not;

And a combi chip for controlling the stored card information to be transmitted to the transmitting / receiving antenna via the antenna connection line when the CPU is turned on via the control signal line. do.

In a preferred embodiment, the RF inductive power conversion unit may be configured to supply a DC power by connecting a power line to only the fingerprint sensor and the CPU.

In a preferred embodiment, when the fingerprint information of the fingerprint sensor and the memory coincide with each other through the control signal line connected to the combination chip on one side and the control signal line on the other side, the CPU applies a low voltage power for driving the combination chip, And if the transmitted fingerprint information does not exist or does not match, a high voltage power for driving the combi chip may be applied to transmit the Off signal to the combi chip.

In a preferred embodiment, the combi chip includes a memory unit for storing card information, and an RF converting unit for converting the radio wave into DC and driving the combi chip to transmit card information. When the On signal is transmitted from the CPU, The card information stored in the memory unit may be transmitted to the transmission / reception antenna via the antenna connection line by the DC power supply provided by the DC power supply, and the transmission of the card information may be blocked when the Off signal is transmitted.

According to another aspect of the present invention, there is provided a control method for a fingerprint recognition RF smart card,

Storing card information of a user in a combination chip and storing fingerprint information in a memory in a CPU;

Accessing a fingerprint recognition RF smart card within a radio wave range transmitted from a card reader to apply a radio wave to the antenna for transmitting and receiving;

The RF inductive power conversion unit connected to the transmitting / receiving antenna generates DC power to supply power to the fingerprint sensor and the CPU;

Generating fingerprint information and transmitting the fingerprint information to the CPU when the fingerprint sensor is powered on;

When the fingerprint information is transmitted from the CPU to which the power is applied, comparing the fingerprint information stored in the memory with the fingerprint information stored in the memory, if the fingerprint information is the same fingerprint information, applying a low voltage power to the combobi chip through the control signal line to turn on the combobi chip;

Transmitting card information stored in the combi chip to an antenna for transmission and reception through an antenna connection line and wirelessly transmitting the card information to a card reader;

Determining whether the card information transmitted by the card reader is true or false and processing payment or identity authentication when the card information is authenticated card information; .

In a preferred embodiment, the CPU may be configured to apply high voltage power to the combi chip via the control signal line until the fingerprint information is transmitted, thereby turning off the combi chip operation to block the card information stored in the combi chip from being transmitted .

According to a preferred embodiment, the CPU may further comprise a step of turning off the operation of the combi chip by applying a high voltage power to the combi chip through the control signal line if the transmitted fingerprint information does not match the fingerprint information stored in the memory have.

According to the present invention, when the fingerprint information measured by the fingerprint sensor does not coincide with the fingerprint information of the user, the CPU is directly connected to the combination chip so that the card information stored in the combination chip is not transmitted to the outside, Even if the fingerprint information measured by the fingerprint sensor is not the user due to a malfunction of the switching circuit in an environment where a card reader having a large discharge voltage or a proximity to the card reader is used like a fingerprint recognition RF smart card having a conventional switching circuit, There is an advantage that a fatal security problem in which the card information is transmitted to the card reader does not occur,

In addition, since the power source of the RF inductive conversion unit is applied to the combi chip containing the card information through the CPU without being directly applied thereto, power consumption generated in the combi chip can be reduced, It is a useful invention having an advantage that it is possible to simplify the configuration of a smart card by receiving radio waves or transmitting card information.

1 is a schematic configuration diagram of an RF smart card having a fingerprint sensor according to an embodiment of the present invention,
FIG. 2 is an exemplary diagram showing a card information sending operation flow at the time of fingerprint recognition approval according to an embodiment of the present invention,
FIG. 3 is a view illustrating an operation flow of card information blocking operation in the case of a fingerprint recognition failure according to an embodiment of the present invention,
4 is a flowchart illustrating a control method using a fingerprint recognition RF smart card having a fingerprint sensor according to an embodiment of the present invention,
FIG. 5 is a schematic configuration diagram of an RF smart card having a conventional fingerprint sensor,
6 is a view illustrating a malfunction of a switching circuit of an RF smart card having a conventional fingerprint sensor.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

1 is a schematic configuration diagram of an RF smart card having a fingerprint sensor according to an embodiment of the present invention.

As shown in the figure, the fingerprint recognition RF smart card 1 of the present invention includes a transmitting / receiving antenna 11 for receiving radio waves transmitted from a card reader 2 and transmitting card information stored in the combi chip 18; An antenna connection line 12 branched from one end of the transmission / reception antenna 11 and connected to both ends of the combi chip 18 to transmit card information of the combi chip 18 to the transmission / reception antenna 11; An RF inductive power source converting section (13) for receiving an output signal of the transmitting / receiving antenna (11) and converting it into a DC power source; A fingerprint sensor 14 for generating contact fingerprint information after power is applied and transmitting the generated fingerprint information to the CPU 15; The fingerprint information transmitted from the fingerprint sensor 14 is compared with the user fingerprint information stored in the memory 16 and the On / Off signal for driving the combination chip is transmitted through the control signal line 17 according to whether the fingerprint information matches the user fingerprint information, A CPU 15 for controlling the control unit 15; A memory (16) for storing fingerprint information of the scat card user; And the other end is connected to the CPU 15 to apply a high voltage power (Off signal) or a low voltage power (On signal) to the combi chip 18 under the control of the CPU 15 A control signal line (17) for receiving the control signal; And a combi chip 18 for controlling the card information stored in the On signal of the CPU 15 through the control signal line 17 to be transmitted to the transmitting / receiving antenna 11 through the antenna connecting line 12. [

The antenna connection line 12 is connected to both ends of the combi chip 18 by being branched at one point on both ends of the antenna. This antenna connection line 12 is used only when the card information stored in the combi chip 18 is transmitted. The card information of the combination chip 18 is not transmitted at all times because the operation of the combination chip 18 is controlled by the CPU 15. [

The direct current power converted by the RF inductive power conversion unit 13 is connected to the fingerprint sensor 14 and the CPU 15 through the power line 131. When the direct current power is supplied, 15 is started. In addition, configurations other than the fingerprint sensor 14 and the CPU 15 are configured such that the DC power converted by the RF inductive power conversion unit 13 is not directly connected to reduce the power consumption required for driving the system.

The CPU 15 controls the high voltage power supply (Off signal) or the low voltage power supply (On signal) for controlling the driving by supplying power to the combi chip 18 by directly connecting the combi chip 18 and the control signal line 17, .

The signal for turning on the combi chip 18 by the CPU 15 is a signal for applying the low voltage power and is transmitted to the CPU 15 via the circuit line 19 after sensing by the fingerprint sensor 14 after power is applied The CPU 15 outputs a signal when the fingerprint information stored in the memory 16 matches the fingerprint information stored in the memory 16. The signal for turning off the combi chip 18 is a signal for applying a high voltage power, When the fingerprint information transmitted through the fingerprint sensor 14 is not transmitted or the fingerprint information transmitted to the CPU 15 after sensing by the fingerprint sensor 14 after power is applied does not match the fingerprint information stored in the memory 16, (15).

The combi chip 18 includes a memory unit 181 for storing card information therein, and an RF converting unit 182 for converting the radio wave to DC and driving the combi chip to transmit card information. 15, it is recognized as an Off signal to interrupt transmission of card information through the antenna connection line 12. When the low voltage power is applied, the card information is recognized as an On signal and the card information is transmitted through the antenna connection line 12 . The high voltage power source according to an embodiment of the present invention is 3.3V and the low voltage power source is 0V. However, the present invention is not limited to these numerical values.

That is, when the low voltage power source is applied, the RF conversion unit constituting the combi chip 18 is turned on, the radio wave is applied to the combi chip 18 and converted into direct current power so that the operating current is generated to transmit the card information stored in the memory unit to the antenna connection line 12). For reference, when the high voltage power source is applied, the RF converting unit is configured to be turned off, so that the combi chip 18 is not operated.

That is, unlike the configuration in which the DC power is directly supplied from the conventional RF power conversion unit 13, the CPU 15 applies the high voltage power through the control signal line 17 to the low voltage power supply And transmits the card information stored in the combi chip 18 to the card reader 2 through the antenna 11 for transmission and reception through the antenna connection line 12. [

As described above, since the combi chip is controlled by the CPU, the combi chip operating circuit by the switching circuit is removed as in the prior art, so that the malfunction of the switching circuit which may occur according to the voltage intensity does not occur, Unlike the conventional fingerprint recognition smart card, there is no DC power supply structure always applied to the combi chip, so that the amount of power to be supplied from the RF inductive power conversion unit is reduced. For reference, the combination chip memory stores not only card information but also the remaining amount information after deducting the prepaid card.

Each of the above-described constitutions is formed inside a conventional plastic card. The method of forming or installing such a configuration on the card is a known card making technique, and thus will not be described in detail.

FIG. 2 is a view illustrating an operation flow of sending card information in the case of fingerprint recognition according to an embodiment of the present invention, and FIG. 3 is a flowchart illustrating a card information blocking operation flow in the case of fingerprint recognition failure according to an embodiment of the present invention Fig.

As shown in FIG. 2, the flow of card information transmission operation at the time of fingerprint recognition is as follows. When the transmitting / receiving antenna 11 approaches the radio wave arrival range of the card reader 2, The RF inductive power conversion unit 13 connected to the antenna 11 for transmitting and receiving converts the radio wave into AC power and supplies the DC power to the CPU 15 and the fingerprint sensor 14 provided in the smart card, Supply power to operate.

The fingerprint sensor 14 supplied with power supplies fingerprint information to the CPU 15 when the fingerprint is contacted.

The CPU 15 supplied with power supplies the high voltage power to the combi chip 18 through the control signal line 17 until the fingerprint information is transmitted to turn off the operation of the combi chip 18, Thereby preventing transmission of the card information stored therein through the antenna connection line 12. [

When the fingerprint information is transmitted, the CPU 15 compares the fingerprint information stored in the memory 16 with the fingerprint information stored in the memory 16 and applies a low voltage power to the combobi chip 18 through the control signal line 17, Is turned on.

When the low voltage power is applied to the combi chip 18, the stored card information is transmitted to the transmitting / receiving antenna 11 via the antenna connecting line 12 to transmit the card information wirelessly to the card reader 2 . That is, when a low voltage is applied to the combi chip, the RF converting unit 182 constituting the combi chip 18 is turned on, and the radio waves received by the transmitting / receiving antenna 11 are transmitted to the combi chip 18 through the antenna connecting line 12 And is converted into a DC power source to generate an operating current, so that the card information stored in the memory unit is transmitted through the antenna connection line 12. At this time, the current intensity supplied to the CPU by DC conversion in the RF inductive power conversion unit connected to the transmitting / receiving antenna 11 is configured to be supplied to the CPU so that the CPU can operate sufficiently.

After that, the card reader 2 receives the card information from the smart card and inquires whether it is the authenticated information, and if it is the authenticated card, the settlement or the identity authentication process is performed. At this time, whether the card is an authorized card or not can be determined by a computer connected to the card reader 2 through a telephone line or the Internet through an authentication server of a financial institution, Can be inquired through the authentication server of the identity certification authority through a telephone line or the Internet, or can be inquired through the DB stored in the computer system when the identity authentication is performed.

3, when the transmission / reception antenna 11 approaches the radio wave reception range of the card reader 2 while the card reader 2 approaches the card reader 2, When the radio wave is received, the RF inductive power conversion unit 13 connected to the antenna 11 for transmitting and receiving converts the radio wave into DC power and supplies the DC power to the CPU 15 and the fingerprint sensor 14 provided in the smart card Supply and operate.

The fingerprint sensor 14 supplied with power supplies fingerprint information to the CPU 15 when the fingerprint is contacted.

The CPU 15 supplied with power supplies the high voltage power to the combi chip 18 through the control signal line 17 until the fingerprint information is transmitted to turn off the operation of the combi chip 18, Thereby preventing transmission of the card information stored therein through the antenna connection line 12. [

When the fingerprint information is transmitted, the CPU 15 compares the fingerprint information with the fingerprint information stored in the memory 16 to determine whether the fingerprint information is authentic. If the fingerprint information is not the authenticated user fingerprint information, Power is applied and the operation of the combi chip 18 is continuously turned off.

When the high voltage power is applied and the off state is maintained, the combi chip 18 is prevented from being transmitted to the transmitting / receiving antenna 11 via the antenna connection line 12, so that the card reader 2 receives no card information It will not be able to process the payment or identity authentication process, and the illegal use of the card will be blocked.

A description will now be given of a control flow when the card is used with reference to the configuration of the fingerprint recognition RF smart card according to the present invention. 4 is a flowchart illustrating a control method using a fingerprint recognition RF smart card having a fingerprint sensor according to an embodiment of the present invention.

First, the fingerprint identification RF smart card stores the user's card information in the combination chip 18 and stores the fingerprint information in the memory 16 in the CPU 15 (S10). At this time, in the method of storing the card information of the user in the combination chip 18 and storing the fingerprint information in the memory 16 in the CPU 15, the card issuer receives the card information or the fingerprint information of the user, It is saved through the device.

A step S20 of accessing a fingerprint recognition RF smart card within a radio wave range transmitted from the card reader 2 and applying a radio wave to the transmission / reception antenna 11 is performed. At this time, the radio wave may be different in strength depending on the type of the card reader 2. The present invention does not require a switching circuit, unlike a card having a conventional switching circuit, so that there is no fear of erroneous operation of the radio wave used in the card reader 2, and any of them may be used.

The RF inductive power conversion unit 13 connected to the transmitting and receiving antenna 11 generates DC power and supplies power to the fingerprint sensor 14 and the CPU 15 in operation S30. The DC power source according to an embodiment of the present invention generated at this time corresponds to the operating voltage of the fingerprint sensor 14 and the CPU 15 at about 3.3V. However, the present invention is not limited to such a voltage value of the DC power supply.

When the fingerprint sensor 14 is powered on, the fingerprint information is generated and transmitted to the CPU 15 (S40). The fingerprint sensor 14 generates and transmits a pattern of the contact fingerprint.

When the fingerprint information is transmitted from the CPU 15 to which power is applied, the fingerprint information is compared with the fingerprint information stored in the memory 16 to apply the low voltage power to the comb tooth chip 18 via the control signal line 17, (S50) of turning on the operation of the controller 18.

Thereafter, the card information stored in the combi chip 18 is transmitted to the transmitting / receiving antenna 11 through the antenna connection line 12 and wirelessly transmitted to the card reader 2 (S60). When the low-voltage power source is applied, the RF conversion unit constituting the combi chip 18 is turned on, a radio wave is applied to the combi chip 18 and converted into a DC power source to generate an operating current, . For reference, when the high voltage power source is applied, the RF converting unit is configured to be turned off, so that the combi chip 18 is not operated.

The card reader 2 judges whether the transmitted card information is authentic or not, and if it is the authenticated card information, processing the settlement or the identity authentication (S70).

In step S50, high voltage power is applied to the combi chip 18 through the control signal line 17 until the fingerprint information is transmitted to turn off the operation of the combi chip 18 so that the card information stored in the combi chip 18 is transmitted .

If the fingerprint information transmitted after step S40 is not identical to the fingerprint information stored in the memory 16, a high voltage power is supplied to the comb tooth chip 18 through the control signal line 17 to turn off the operation of the comb tooth chip 18 (S51). ≪ / RTI >

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 invention as defined in the appended claims and their equivalents. Of course, such modifications are within the scope of the claims.

(1): Fingerprint identification RF smart card (2): Card reader
(11): Transmitting / receiving antenna (12): Antenna connection line
(13): RF inductive power conversion unit (14): fingerprint sensor
(15): CPU (16): memory
(17): Control signal line (18): Combi chip
(19): Circuit line (131): Power line
(181): memory unit 182: RF conversion unit

Claims (7)

A transmission / reception antenna for receiving radio waves transmitted from a card reader and transmitting card information stored in the combination chip;
An antenna connection line connected to both ends of the combi chip branched at one point on both ends of the antenna for transmitting and receiving to transmit card information of the combi chip to the antenna for transmission and reception;
An RF inductive power conversion unit that receives an output signal of the antenna for transmitting and receiving and converts the output signal to a DC power;
A fingerprint sensor for generating contact fingerprint information after power is applied and transmitting the generated fingerprint information to the CPU;
A CPU for comparing the fingerprint information transmitted from the fingerprint sensor and the user fingerprint information stored in the memory and transmitting an On / Off signal for driving the combination chip through the control signal line according to whether the fingerprint information matches or not;
And a combi chip for controlling stored card information to be transmitted to an antenna for transmitting and receiving through an antenna connection line when an On signal of the CPU through a control signal line,
When the fingerprint information of the fingerprint sensor and the memory coincide with each other through the control signal line connected to the CPU, one side of the CPU is connected to the combi chip and the other side is supplied with the low voltage power for driving the combi chip to transmit an On signal to the combi chip. If there is no information or there is no match, a high voltage power source for driving the combi chip is applied to transmit the Off signal to the combi chip,
The combi chip includes a memory unit for storing card information, and an RF converting unit for converting the radio wave into DC and driving the combi chip to transmit card information. When the On signal is transmitted from the CPU, Transmits the card information stored in the memory unit to the transmitting / receiving antenna via the antenna connection line and transmits the card information stored in the memory unit, blocks transmission of the card information when the Off signal is transmitted,
Wherein the RF inductive power conversion unit is configured to connect a power line to only the fingerprint sensor and the CPU to supply the DC power to the fingerprint sensor and the CPU.
delete delete delete A method for controlling a fingerprint identification RF smart card,
Storing the user's card information in a combination chip and storing the fingerprint information in a memory in the CPU (S10);
(S20) of accessing a fingerprint identification RF smart card according to claim 1 within a radio wave range transmitted from a card reader to apply a radio wave to a transmission / reception antenna;
A step (S30) of generating a DC power source by an RF inductive power conversion unit connected to an antenna for transmitting and receiving and supplying power to the fingerprint sensor and the CPU;
(S40) of generating fingerprint information and transmitting the generated fingerprint information to the CPU when the fingerprint sensor is powered on;
When the fingerprint information is transmitted from the CPU to which the power is applied, comparing the fingerprint information stored in the memory with the fingerprint information stored in the memory, if the fingerprint information is the same fingerprint information, applying a low voltage power to the combination chip through the control signal line to turn on the combination chip;
(S60) transmitting the card information stored in the combi chip to the transmitting / receiving antenna via the antenna connection line and wirelessly transmitting the card information to the card reader;
(S70) of determining whether the transmitted card information is true or not and processing payment or identity authentication if it is authenticated card information,
In step S50, a high-voltage power source for driving the combi chip is applied to the combi chip through the control signal line until the fingerprint information is transmitted to turn off the combi chip, thereby blocking the card information stored in the combi chip from being transmitted.
If the fingerprint information transmitted after step S40 is not identical to the fingerprint information stored in the memory, step (S51) of turning off the operation of the combination chip by applying a high voltage power for driving the combination chip to the combination chip through the control signal line And controlling the fingerprint authentication of the RF smart card.
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