KR20180103805A - Fingerprint recognition card and method for operating power of the fingerprint recognition card - Google Patents

Abstract

The present invention relates to a fingerprint recognition card and a power operating method thereof. The fingerprint recognition card includes: a fingerprint recognition sensor which acquires fingerprint information according to a fingerprint contact of a user; a front sensor operating as a capacitive sensor, as a bezel formed on an outer periphery of the fingerprint recognition sensor; and a control unit for receiving a power sensing signal and recognizing a power operation according to the contact of the user sensed by the front sensor. Accordingly, the present invention can improve payment security.

Description

FIELD OF THE INVENTION [0001] The present invention relates to a fingerprint recognition card and a fingerprint recognition card,

The present invention relates to a power source operation method using a fingerprint recognition card and a fingerprint recognition card. More particularly, the present invention relates to a method of operating a power source using a fingerprint recognition card and a fingerprint recognition card implementing a module that replaces a button-type power source.

Recently, as various payment technologies that do not utilize money have developed, methods for simplifying payment using various means have been proposed. In the process of payment, both convenience and high security are required. Therefore, both aspects of payment system should be considered.

The payment method using a plastic card is a classical payment method. In recent years, various payment methods have been developed, and basic payment methods using plastic cards are still preferred. However, in the case of a payment method using a user terminal, additional security devices are utilized, while payment using a plastic card is still approved without a separate security device, thereby preventing illegal use in case of loss of a plastic card I can not.

Furthermore, if a portable plastic card can be used for various purposes in addition to the settlement service, it is possible to reduce a feeling of reluctance to carry a plastic card separately.

United States Patent No. 8,904,187 (registered on December 12, 2014)

The present invention provides a method of operating a power source using a fingerprint recognition card and a fingerprint recognition card which can improve security of payment by providing an additional security means on a plastic card in a plate form.

The present invention provides additional security means for the plastic card, while enabling the use of the step-by-step security means by making it available for various uses.

The present invention operates through a self-contained battery included in a plastic card. In order to minimize power consumption of the self-powered battery, power is selectively supplied only to a specific area, and a self- Can be expected to be used.

The present invention provides a fingerprint recognition card capable of replacing a button-type power supply unit provided in a fingerprint recognition card and realizing a power supply module integrated in a fingerprint sensor, thereby securing additional space in the card and improving user's convenience.

The present invention relates to a fingerprint recognition card and a method of operating the same, and a fingerprint recognition card according to an embodiment of the present invention includes a fingerprint recognition sensor for acquiring fingerprint information in accordance with a fingerprint of a user; A bezel formed on an outer circumference of the fingerprint recognition sensor, the bezel comprising: a front sensor operating as a capacitive sensor; And a control unit receiving the power detection signal and recognizing the power supply operation according to the touch of the user sensed by the front panel sensor.

Alternatively, the control unit may include a first control unit connected to the display unit or a second control unit connected to the fingerprint recognition sensor, wherein when receiving the power detection signal from the front face sensor, And can be received through a touch sensor disposed between the sensors. The front side sensor may also be made of conductive metal. The fingerprint recognition card may be formed on a rear surface of the fingerprint recognition card, and may further include a fingerprint sensor and a rear surface sensor formed under the front surface sensor, and the rear surface sensor may operate as a capacitive sensor. The backside sensor can be implemented as a copper pad on the PCB.

The fingerprint recognition card may include a display unit for visually displaying at least one of card user identification, payment processing step, payment approval status, and OTP (One Time Password). A security device for encrypting and storing user identification information or card payment information; And an antenna for transmitting and receiving signals between the external device and the security device. At this time, the security device includes a recording medium storing a plurality of applets, and one of the plurality of applets can be activated under the control of the first control unit.

The controller may determine at least one of whether the fingerprint is normally acquired from the fingerprint recognition sensor, whether the detected fingerprint matches the previously stored authentication information, and the acquired fingerprint type. The first control unit may activate one of the plurality of applets based on the fingerprint type determined by the authentication control unit.

According to another aspect of the present invention, there is provided a method of operating a power source for a fingerprint recognition card including a fingerprint recognition sensor, the method comprising: generating a power detection signal when a fingerprint of a user touches a front sensor formed on an outer circumference of the fingerprint recognition sensor step; Receiving the power detection signal according to the user's touch and transmitting the received power detection signal to the control unit; And a step in which the control unit is activated in response to the power detection signal.

According to the present invention, it is possible to provide a fingerprint recognition card capable of preventing unauthorized use even when a card is stolen by providing an additional security means in a plastic card in a plate form, and a power operation method using the same.

According to the present invention, it is possible to provide a fingerprint recognition card capable of utilizing a plastic card in a plate form for various purposes according to an external call command or the type of fingerprint recognized, and a power operation method using the same.

According to the present invention, it is possible to provide a fingerprint recognition card and a power supply operation method using the self-contained battery, which can minimize the consumption of the self-battery by supplying power only to a specific area according to the operation.

According to the present invention, it is possible to provide a fingerprint recognition card that can charge its own battery through a contact portion that is in contact with a card reader.

According to the present invention, when a power source is operated, an alternative module such as a bezel is used in place of a button or a switch, thereby maximizing the arrangement efficiency of the components in the card and improving convenience for the user.

1 is a view showing an appearance of a fingerprint recognition card according to an embodiment of the present invention.
2 is a block diagram illustrating an internal configuration of a fingerprint recognition card according to an embodiment of the present invention.
3 is a block diagram illustrating an internal configuration of a fingerprint recognition card according to another embodiment of the present invention.
4 is a view for explaining a method of operating a power source of a fingerprint recognition card according to an embodiment of the present invention.
5 is a view for explaining a method of operating a power source of a fingerprint recognition card according to another embodiment of the present invention.
6 is a flowchart illustrating a method of operating a power source of a fingerprint recognition card according to an embodiment of the present invention.
Like reference numbers in the several drawings indicate like elements.

It is to be understood that the specific structural or functional description of embodiments of the present invention disclosed herein is for illustrative purposes only and is not intended to limit the scope of the inventive concept But may be embodied in many different forms and is not limited to the embodiments set forth herein.

The embodiments according to the concept of the present invention can make various changes and can take various forms, so that the embodiments are illustrated in the drawings and described in detail herein. It should be understood, however, that it is not intended to limit the embodiments according to the concepts of the present invention to the particular forms disclosed, but includes all modifications, equivalents, or alternatives falling within the spirit and scope of the invention.

The terms first, second, etc. may be used to describe various elements, but the elements should not be limited by the terms. The terms may be named for the purpose of distinguishing one element from another, for example, without departing from the scope of the right according to the concept of the present invention, the first element may be referred to as a second element, The component may also be referred to as a first component.

It is to be understood that when an element is referred to as being "connected" or "connected" to another element, it may be directly connected or connected to the other element, . On the other hand, when an element is referred to as being "directly connected" or "directly connected" to another element, it should be understood that no other element exists in between. Other expressions that describe the relationship between components, such as "between" and "between" or "neighboring to" and "directly adjacent to" should be interpreted as well.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. The singular expressions include plural expressions unless the context clearly dictates otherwise. In this specification, the terms "comprises" or "having" and the like are used to specify that there are features, numbers, steps, operations, elements, parts or combinations thereof described herein, But do not preclude the presence or addition of one or more other features, integers, steps, operations, components, parts, or combinations thereof.

Unless otherwise defined, all terms used herein, including technical or scientific terms, have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. Terms such as those defined in commonly used dictionaries are to be interpreted as having a meaning consistent with the meaning of the context in the relevant art and, unless explicitly defined herein, are to be interpreted as ideal or overly formal Do not.

1 is a front view of a card 100, and FIG. 1 (b) is a rear view of a card 100 according to an embodiment of the present invention. 1, a fingerprint recognition card 100 according to an embodiment of the present invention includes an IC chip 110, a display unit 120, a fingerprint recognition sensor 130, and a bezel 140. In addition, according to an embodiment, the card 100 may further include a capacitive sensor 150 on the rear surface thereof.

The fingerprint recognition card 100 may provide the payment information or the user identification information stored in the IC chip 110 when a fingerprint of a legitimate user of the card is recognized to perform operations such as card settlement or user identification. The plate-shaped fingerprint recognition card 100 has a self-contained battery and detects the fingerprint by providing power to the fingerprint recognition sensor 130 in response to the operation of the power supply module. For example, a small amount of static electricity flows through the bezel 140 of the card 100, and when a fingerprint of a user touches the touch panel, the contact of the user is detected and the power signal is transmitted to the control unit. That is, when the bezel 140 implemented on the rim of the fingerprint recognition sensor 130 operates as a capacitive sensor, the power of the self-battery is supplied to the fingerprint recognition sensor 130 by implementing the function of the power switch, (130).

The bezel 140 is a metal frame formed on the rim of the fingerprint recognition sensor 130, and can operate as a capacitive sensor. That is, the user can activate the fingerprint sensor 130 in an inactive state by sensing the human body contact and transmitting the detection signal. In another embodiment, the card 100 of the present invention can be implemented to include the capacitive sensor 150 on the back side as well as the bezel 140 on the front side. For example, the capacitive sensor 150 on the rear side may be implemented as a copper board disposed under the fingerprint recognition sensor 130. [ When the user places the front bezel 140 and the backside sensor 150 on the backside of the card, it is possible to detect human contact on both sides of the card. In one embodiment, the sensing operation may be sensed only on either the front or rear side, or may be implemented to act as a power switch when both are sensed.

In one embodiment, the power operation method using the bezel 140 can be implemented to generate a power signal when a human touch is detected for a predetermined time or more, through a setting of a control unit connected to the bezel 140. For example, when the user sets the software to operate as a power source when the contact is made for 3 seconds or more, the user can generate a power signal when the user touches the bezel 140 for 3 seconds or more.

The display unit 120 can visually output various information that can be utilized when the fingerprint recognition card 100 is used. For example, the display unit 120 may include a component capable of visually displaying information such as a monochrome or color LCD, an LED, and the like. The display unit 120 generates information on whether the fingerprint recognition card 100 is powered on or off, fingerprint confirmation information when a fingerprint is recognized through fingerprint recognition, payment response information for requesting payment, and an OTP (One Time Password) The OTP information or the like can be displayed.

The IC chip 110 refers to a control device or a processor for performing control and calculation necessary for the operation of the card 100. The IC chip 110 receives an input signal and generates a command according to the input signal. For example, after receiving the fingerprint verification result sensed by the fingerprint recognition sensor 130, the IC chip 110 can activate the IC chip to perform a subsequent operation (e.g., OTP generation). Further, the IC chip 110 may calculate information using a predetermined algorithm or the like according to an input signal, and may transmit the calculated result data to the display unit 120. [

The fingerprint recognition card 100 of the present invention performs the activation and function of the card through the organic operation of the IC chip 110, the display unit 120, the fingerprint recognition sensor 130 and the bezel 140 as described above do. The card 100 of the present invention has an advantage of maximizing the arrangement efficiency among the components in the card and improving the convenience of the user by using a substitute module such as a bezel instead of a button or a switch at the time of power supply operation.

2 is a block diagram showing internal components of the fingerprint recognition card 200. As shown in FIG. 2, the fingerprint recognition card 200 may include a first area 210, a second area 240, a third area 280, a self-contained battery 285, and a bezel 270 .

The first area 210 may include a first control unit 220 and a display unit 230. The first region 210 may receive power through its own battery during power operation using the bezel 270. The card control unit 220 included in the first area 210 is in a sleep state and senses the input of the bezel 270 to supply the power provided from the self battery 285 to the second area 240 can do. The bezel 270 may operate as a power switch by replacing the power button.

As described above, according to one embodiment of the present invention, the conductive metal bezel 270 provided at the rim of the fingerprint recognition sensor 260 operates as a capacitive sensor instead of a power switch, thereby detecting human contact. The bezel 270 may be connected to the first controller 220 through the touch sensor 275. A signal is transmitted to the touch sensor 275 when the contact is sensed by the bezel 270 and a power signal is sensed by the touch sensor 275 by transmitting an input signal to the first control unit. The first control unit 220 may recognize the signal received from the touch sensor 275 as a power input signal to activate the second area 240 or the third area 280. [

In another embodiment, the card 100 of the present invention can be implemented with a capacitive sensor 150 on the back side. For example, the capacitive sensor 150 on the rear side may be implemented as a copper board disposed under the fingerprint recognition sensor 130. [ When the user places the front bezel 140 and the backside sensor 150 on the backside of the card, it is possible to detect human contact on both sides of the card. The sensor 270 or 150 generated on the front or rear surface transmits a detection signal to the touch sensor 275 when a human body touch is detected and transmits the sensing signal to the first controller so that the power is turned on.

In the fingerprint recognition card 200 according to the present invention, when power is not input, the power of the self-battery 285 is not consumed, and when the power is inputted through the bezel 270, The power consumption of the self-battery 270 can be minimized since the power supply is selectively supplied to the other regions by waking up from the sleep state.

In one embodiment, the first control unit 220 may store authentication information. The first controller 220 receives the fingerprint information detected in the second area 240 and determines whether the fingerprint information matches the previously stored authentication information. In another embodiment, the first controller 220 receives only the result of the determination based on the fingerprint detection in the second controller 250, that is, whether or not the detected fingerprint matches the authentication information. Based on the determination result, (280). According to an embodiment, the first control unit 220 can control the activation of the third area 280 based on the fingerprint authentication result provided from the second area 240. For example, the fingerprint authentication result may be generated by determining at least one of whether a fingerprint is normally acquired from the fingerprint recognition sensor 260, a match between the sensed fingerprint and the previously stored authentication information, and the acquired fingerprint type .

Activation of the third zone 280 by the first zone 210 may be accomplished by sending information stored in the security device 290 contained in the third zone 280 to an external device, a method of supplying power to the third area 280 and a method of activating a communication function by connecting the antennas of the third area 280, and the like.

The display unit 230 included in the first area 210 displays whether the card power is turned on or off, whether the fingerprint sensed in the second area 240 is normally authenticated, whether the self- , Or alternatively may display OTP information. The display unit 230 of FIG. 2 may correspond to the display unit 120 of FIG.

The second area 240 is activated in response to the power of the self-contained battery 270 provided through the first area 210 to sense fingerprint information of the user through the fingerprint recognition sensor 260. The second area 240 may include a second control unit 250, which is an authentication control unit, according to an embodiment of the present invention. The authentication control unit 250 may compare the fingerprint information sensed by the fingerprint recognition sensor 260 with the previously stored authentication information to determine whether the proper owner of the fingerprint recognition card 200 has input the fingerprint. The authentication control unit 250 provides the determination result to the first control unit 220 so that the first control unit 220 activates another area (for example, the third area 280) The recognition result is displayed so that it can be displayed.

According to the embodiment, the fingerprint recognition card 200 can manage fingerprint information of a plurality of fingers, and the authentication control unit 250 can determine which fingerprint the information sensed by the fingerprint recognition sensor 260 is have. For example, the authentication control unit 250 determines whether the fingerprint sensed through the fingerprint recognition sensor 260 is a fingerprint of a thumb or a fingerprint of an index finger according to the characteristics of the fingerprint, 220 and the fingerprint type information. The fingerprint information of the plurality of fingers can be managed by the first control unit 220. The authentication control unit 250 can communicate with the first control unit 220 to determine which fingerprint the fingerprint is detected.

The first control unit 220 manages an input signal associated with a specific finger, that is, an input signal for activating a specific applet, and may provide an associated input signal to the third region 280 as a fingerprint of a specific finger is input . The third area 280 can perform a different applet according to the input signal received from the first control unit 220, and a different applet can be executed according to the kind of the authenticated finger.

For example, the first control unit 220 and the third area 280 may be connected to each other through a plurality of connection lines, and the first control unit 220 and the third area 280 may have different It can be recognized that an input signal is provided. If the first control unit 220 and the third region 280 are connected by two connection lines, four input signals may be separately provided according to a combination of electrical connections of the two connection lines.

According to an embodiment, the authentication control unit 250 can determine whether the detected fingerprint information is normal fingerprint information. For example, the authentication control unit 250 may determine that the fingerprint information is not normal fingerprint information when a predetermined number or more of minutiae points capable of specifying the fingerprint are not acquired in the detected fingerprint information. In order to detect the accurate fingerprint information, the finger must touch the fingerprint recognition sensor 260 for a predetermined time or more. If the finger contact is removed within the predetermined time, it is determined that the fingerprint information is not normally acquired. Can be requested.

In another embodiment, the authentication control unit 250 may display the start, completion, and fingerprint re-entry of the fingerprint of the fingerprint recognition sensor 260 through the display unit 230. In this case, the authentication control unit 250 can transmit information displayed on the display unit 230 to the first control unit 220 of the first area 210. [ For example, information such as 'Start' indicating the start of fingerprint input and 'OK' when the fingerprint information detection is completed is displayed. If the fingerprint is not normally acquired, 'RE-Start' Information can be displayed.

In addition, the fingerprint comparison result of the authentication control unit 250 may be displayed to the user through the display unit 230. [ For example, information indicating 'PASS' when authentication of the fingerprint recognition result is successful and 'FAIL' or 'Error' when authentication of authentication result is failed can be displayed on the display unit 230.

As described above, the first controller 220 may provide different input signals to the third region 280 according to the authenticated finger type, or may perform different operations on the first controller 220 itself.

The user can predict the next operation of the fingerprint recognition card 200 according to the fingerprint comparison result. Further, when the fingerprint authentication is not normally performed, it is possible to attempt to input more accurate fingerprint information to the fingerprint recognition sensor 260.

According to the embodiment, if the authentication is not performed even though the fingerprint information and the authentication information are compared a predetermined number of times or more, an attempt to use the fingerprint recognition card 200 by an unauthorized user due to theft of the fingerprint recognition card 200 And the first control unit 220 restricts the operation of the fingerprint recognition card 200.

For example, when the power source signal through the bezel 270 is input to the fingerprint recognition card 200, the first controller 220 may not activate the second area 240 and / or the third area 280 .

When the previously stored authentication information matches the fingerprint information acquired through the fingerprint recognition sensor 260, the first control unit 220 activates the third region 280. [

The first control unit 220 of the first area 210 and the second authentication unit 250 of the second area 240 are separated from each other. However, the first control unit 220 220 and the second controller 250 may be implemented as one controller.

In general, since the power consumption of the MCU (for example, the second control unit 250) connected to the fingerprint recognition sensor 260 is high, in one embodiment of the present invention, the calculation of the fingerprint information And the verification is separated. However, it is also possible to configure the present invention with only one MCU (e.g., the second control unit 250) through improvement of performance and power consumption.

The activation of the third area 280 may be provided from the self-battery 285 through the first area 210 or may be caused by activation of the third area 280 itself regardless of whether the power is applied or not.

The third area 280 may include a security device 290 and an antenna 294. The security device 290 may store previously stored authentication information, card user information, user authentication information, and the like, and may include a recording medium storing a plurality of applets according to an embodiment. The third region 280 may correspond to the IC chip 110 of FIG. The third area 280 may be referred to as a secure area.

Further, the security device 290 may include an encryption module to encrypt and store the stored information or applets. For example, the security device 290 may include a Secure Element. The SE may include Universal Integrated Circuit Card (UICC), embedded SE (eSE), and micro SD. The UICC can be used in the same meaning as the USIM chip required for opening the cellular phone, and the eSE may refer to an element implemented by an electronic device manufacturer attaching SE to the main board of the device. Micro SD is mainly provided as a detachable form. It is devoid of the influence of mobile carriers. For example, micro SD is made to have ownership and service through the provider. The SE is provided in a separate form from the central processing unit (CPU) that manages the operation of the SE-equipped device as well as its own encryption system. Thus, the activation of the security device 290 can be controlled by the first area 210, but the operation inside the security device 290 is done by the control means of the security device 290 itself.

The antenna 294 may include a conductive pattern printed on the sheet of fingerprint recognition card 200 and may perform communication between the external device and the security device 290. For example, when the third area 280 is activated, card payment information stored in the security device 290 or user authentication information may be transmitted to an external payment agent terminal, payment agent server, user authentication device, or the like.

In another embodiment, the security device 290 may request OTP generation for an external OTP generation module via an antenna 294. [ For example, the security device 290 may request OTP generation by communicating user information to an external OTP generation module in the same manner as near-field wireless communication. The third area 280 receiving the OTP generated by the OTP generation module can display the OTP information through the display unit 230.

According to an embodiment, the security device 290 may store the payment approval information, the user authentication information, and the OTP information received from the external device in the security device 290 or provide the same to the first area 210. The first area 210 displays the information received from the external device through the display unit 230 so that the user can utilize the information to use the card.

The security device 290 may perform a variety of operations by performing different applets such that execution of these applets may be based on an externally received call command or may be based on an input signal received from the first control 220, And can be started by an input means provided in the input device. By the input means provided in the card itself, it means to select an applet to be executed in the security device 290 through a hard key of the card itself or the like. For example, when a user wishes to make a settlement through the fingerprint recognition card 200 and wishes to utilize the fingerprint recognition card 200 with an ID card, a different hard key is input when generating an OTP number, The card 200 can be used. Also, as described above, different input signals may be provided from the first controller 220 according to the type of the finger input by the user, so that different applets may be executed based on the input signals.

The third region 280 may further include a contact portion 292 that is in contact with the security device 290. The contact portion 292 may be electrically connected to an external card reader or the like to transmit an electrical signal to the security device 290. In one embodiment, the charging circuit 287 connects the self-battery 270 and the contacts 292 that are in contact with the security device 290. The card reader may have a contact terminal that contacts the security device 290 through contact 292. The fingerprint recognition card 300 according to an embodiment of the present invention is supplied with current through the contact portion 292 electrically connected to the card reader and the charging circuit 287 receiving the current supplies current to the self battery 270 Can be supplied and charged.

Since the self-contained battery 270 can be easily charged through the card reader even when the self-contained battery 270 is discharged due to the provision of the charging circuit 287, the lifetime of the fingerprint recognition card 200 can be extended .

According to an embodiment, each region may be automatically deactivated after a predetermined time elapses after the second region 240 and the third region 280 are activated. The time at which each area is activated can be the same or different, and the time can be counted by driving an internal timer. In order to control activation of each region in the first region 210, the activation time of each region is checked in the first region 210, and when the predetermined activation time has elapsed, the second region 240 and / Area 280 may be deactivated.

In this way, the fingerprint recognition card 200 can perform the fingerprint recognition and display operation without the external power source while minimizing the consumption of the self-contained battery 270.

However, even when the power of the self-contained battery 270 is consumed, the fingerprint recognition card 200 must be continuously used.

3 is a view illustrating a fingerprint recognition card according to another embodiment of the present invention. The embodiment of FIG. 3 is a block diagram showing the structure of a fingerprint recognition card implemented except for the first area 210 including the display unit and the first control unit of FIG. The same reference numerals denote substantially the same components and perform substantially the same constitution and operation, and therefore, a detailed description thereof will be omitted for convenience of explanation.

The fingerprint recognition card 300 may include a second area 340, a third area 380, a charging circuit 387, a self-contained battery 285, and a bezel 370. When the first area 210 and the first controller 220 are not included, the fingerprint recognition card 300 may use the second controller as the main processor. The second controller 350 is in a sleep state during the power operation using the bezel 270 and detects the input of the bezel 370 so that the power supplied from the self- Area 340 as shown in FIG. That is, the bezel 370 can operate as a power switch by replacing the power button. Alternatively, a touch sensor may be additionally provided between the bezel 370 and the second controller 350. For example, when a touch sensor is provided, the touch sensor receives fingerprint information from the fingerprint recognition sensor 360 and calculates fingerprint information to be transmitted to the second control unit 350. If the touch sensor is not provided The second control unit 350 may receive the fingerprint information from the fingerprint recognition sensor 360 and perform all required operations.

According to an embodiment of the present invention, the conductive metal bezel 370 provided at the rim of the fingerprint recognition sensor 260 operates as a capacitive sensor instead of a power switch to detect human contact. The bezel 370 may be connected to the touch sensor or the second controller 350. A signal is transmitted to the touch sensor when the touch is detected by the bezel 370 and a power signal is sensed by the touch sensor by transmitting an input signal to the second control unit 350. [ The second control unit 350 may recognize the signal received from the bezel or the touch sensor as a power input signal to activate the second area 240 or the third area 280. [

In this way, when the second controller 350 performs both the power detection and the fingerprint recognition without the first controller, the second controller 350 performs the same functions as the controller (e.g., MCU) employed in the embodiment of FIG. 2 And an MCU having a configuration with a good capacity can be employed. Further, in the case of implementing using the second control unit 350, there is an advantage in that additional space can be secured at the time of circuit arrangement, thereby further arranging components capable of adding or improving other functions.

As another example, as shown in FIG. 1B, the card 100 of the present invention can be implemented to include the capacitive sensor 150 on the rear surface. For example, the capacitive sensor 150 on the rear side may be implemented as a copper board disposed under the fingerprint recognition sensor 130. [ When the user places the front bezel 140 and the backside sensor 150 on the backside of the card, it is possible to detect human contact on both sides of the card. When a human body is detected, the sensor (for example, a bezel or a copper plate on the rear surface) generated on the front surface or the rear surface transmits a detection signal to the touch sensor and transmits the detection signal to the second control unit 350 .

FIG. 4 is a sectional view of a card 400 for explaining a method of operating a power source of a fingerprint recognition card according to an embodiment of the present invention. 4A shows a case where the bezel 440 surrounding the fingerprint recognition sensor 430 protrudes from the sensor 430 and FIG. 4B shows a case where the sensor 430 and the bezel 440 have the same height As shown in FIG. The card 400 according to the present embodiment may include a controller 420, a fingerprint sensor 430, and a bezel 440.

4 (a), the bezel 440 and the fingerprint recognition sensor 430 may be connected to the control unit 420, respectively. In one embodiment, the bezel 440 may be designed to be higher in height than the sensor 430 to protect the sensor 430 and to be the first contact in finger contact (FIG. 4 (a)). As another example, the bezel 460 embodied in the card 450 may be implemented at the same height as the fingerprint recognition sensor 430, as shown in FIG. 4 (b).

As described above, the bezel 440, which is embodied as a conductive metal, can detect human contact and transmit it to the control unit 420. [ In one embodiment, the bezel 440 may transmit a power detection signal to the first control unit 220 or the second control unit 350. In another embodiment, when a touch sensor is disposed between the bezel 440 and the control unit 420, a signal sensed by the bezel 440 is transmitted to the touch sensor, So that power can be supplied.

For example, when a user uses a fingerprint recognition card, when a finger is placed on the sensor, the finger touches the bezel 460 and power is supplied via the bezel 460. By improving the speed of sensing operation, it is possible to reduce the interval between the power source operation and the fingerprint recognition time, so that the user can feel as if the fingerprint recognition is performed immediately when the finger is contacted, without waiting for a separate power source operation. That is, when the fingerprint recognition cards 400 and 450 have a separate power button (or switch), the user has to press the power button and put a finger on the fingerprint sensor. However, The sensors 400 and 450 have the effect of maximizing the convenience of the user by implementing the sensor and the power function in a unified form.

FIG. 5 is a diagram for explaining a method of operating a power source of the fingerprint recognition card 500 according to another embodiment of the present invention. The card 500 may include a control unit 520, a fingerprint recognition sensor 530, a bezel 540, and a backside sensor 550.

In the embodiment of the figure, the card 500 may be implemented with a capacitive sensor 550 on its rear surface. For example, the rear capacitive sensor 550 may be implemented as a copper board disposed below the fingerprint recognition sensor 530. In the case where the sensor 550 is disposed on the rear surface, when the user holds the front bezel 540 and the rear surface sensor 550 of the card with fingers, it is possible to detect human contact on both sides.

The sensor (for example, the bezel 540 or the copper plate 550 on the rear surface) generated on the front surface or the rear surface transmits a detection signal to the touch sensor when the human touch is sensed and transmits the sensed signal to the control unit 520, It acts like a switch. As described above, the signal can be transmitted via the touch sensor before the signal is transmitted to the control unit 520. [

In one embodiment, the card 500 may be powered by a power source even if only one of the sensing of human contact through the front bezel 540 or the sensing of human contact through the sensor 550 at the back Can be detected. In another embodiment, the card 500 may be implemented such that both sides of the sensor 540 on the front side and the sensor 550 on the back side should be sensed (e.g., when the card is held with two fingers) . In another embodiment, other operations may be performed such that only one of the front and rear sides is recognized, and the other operations are performed when both sides are recognized.

6 is a flowchart illustrating a method of operating a power source of a fingerprint recognition card according to an embodiment of the present invention. The fingerprint recognition card is in a standby state before receiving the power detection signal (step 610). The control and security devices may be in the OFF state to minimize power consumption. The controller connected to the power module including the bezel 140 and the rear sensor 150 may be in a sleep state and may be activated to supply power to another module when receiving the power detection signal.

2, the first controller 220 may receive a signal sensed by the bezel through the touch sensor (operation 620). The first controller 220 is activated according to the sensed signal, and activates the second controller 250 when a fingerprint recognition function is required (steps 630 and 640). According to the embodiment, the first control unit 220 can design a certain configuration (the second control unit 250 or the security device 290) to be activated after being activated.

When the second controller 250 is activated, the fingerprint recognition sensor 260 is activated to detect the fingerprint of the user (operation 650). If the fingerprint information is not correctly recognized, the user may request the recognition of the fingerprint information through the guidance of the display unit (operation 660).

Next, the control unit can verify the fingerprint information (step 670). In one embodiment, the second control unit 250 firstly verifies which fingerprint information is input (for example, finger information) and transmits the fingerprint information to the first control unit 220. The first control unit 220 It is possible to verify whether the fingerprint information is the same fingerprint information as the stored information. In another embodiment, when the first controller 220 is not provided and only the second controller 250 is configured, the second controller 250 may be configured to verify both the type of the fingerprint information and whether the fingerprint information is authenticated.

When verification of the fingerprint information is completed, the first controller 220 activates the security area to perform a subsequent operation (680). For example, if the fingerprint recognition card functions as an access card or ID card, the antenna can be connected and activated. In the case of an OTP card, the OTP algorithm can be executed to display the OTP number.

The present invention has been described in detail with reference to the preferred embodiments shown in the drawings. These embodiments are to be considered as illustrative rather than limiting, and should be considered in an illustrative rather than a restrictive sense. The true scope of protection of the present invention should be determined by the technical idea of the appended claims rather than the above description. Although specific terms are used herein, they are used for the purpose of describing the concept of the present invention only and are not used to limit the scope of the present invention described in the claims or the claims. It will be understood by those of ordinary skill 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 by the appended claims. It is to be understood that the equivalents include all components that are invented in order to perform the same function irrespective of the currently known equivalents as well as the equivalents to be developed in the future.

100, 200, 300, 400, 450, 500: Fingerprint recognition card
210: first region 280: third region
220: first control unit 285: battery
230: display unit 287: charging circuit
240: second area 290: security device
250: second control unit 292:
260: fingerprint recognition sensor 294: antenna
270: Bezel

Claims (16)

In a fingerprint recognition card,
A fingerprint recognition sensor for acquiring fingerprint information according to a user's fingerprint contact;
A bezel formed on an outer circumference of the fingerprint recognition sensor, the bezel operating as a capacitive sensor, wherein when a user touches the fingerprint to the fingerprint recognition sensor, A front sensor for generating a front sensor;
A security device for encrypting and storing the authentication information, and a contact portion in contact with the security device and in contact with an external card reader;
A charging circuit that receives current through the contact portion and charges a battery built in the fingerprint recognition card; And
And a controller for recognizing the operation of supplying power from the battery when the front face detection signal is received from the front face sensor. The method according to claim 1,
Wherein the control unit includes a first control unit connected to a display unit or a second control unit connected to the fingerprint recognition sensor. 3. The method of claim 2,
Wherein the controller receives the front face detection signal through a touch sensor disposed between the controller and the front face sensor. The method according to claim 1,
Wherein the front face sensor is made of a conductive metal. The method according to claim 1,
Wherein,
Wherein the control unit controls the supply of power to the security device by comparing the detected fingerprint with the previously stored authentication information by supplying the power to the fingerprint recognition sensor to control the supply of power to the security device. The method according to claim 1,
Further comprising a rear surface sensor formed on a rear surface of the fingerprint recognition card, the back surface sensor being formed at a lower position facing the front surface sensor and the fingerprint recognition sensor and operating as a capacitance type sensor. The method according to claim 1,
A display unit for visually displaying at least one of a card user identification, a payment processing step, a payment approval status, and an OTP (One Time Password); And
Further comprising an antenna for transmitting and receiving signals between the external device and the security device. 8. The method of claim 7,
The security device includes a recording medium storing a plurality of applets,
Wherein one of the plurality of applets is activated under the control of the control unit. 3. The method according to claim 1 or 2,
Wherein,
Wherein the fingerprint recognition module determines at least one of whether the fingerprint is normally acquired, whether the fingerprint sensed by the fingerprint recognition sensor is normally acquired, whether the sensed fingerprint matches the previously stored authentication information, and the acquired fingerprint type. 9. The method of claim 8,
Wherein the controller is operable to activate one of the plurality of applets by determining the type of the fingerprint acquired from the fingerprint recognition sensor. A method of operating a fingerprint recognition card comprising a fingerprint recognition sensor and a security device for encrypting and storing authentication information, a contact portion contacting the security device and contacting the card reader, and a built-in battery,
A front face sensor formed on an outer circumference of the fingerprint recognition sensor detects a fingerprint contact of a user to generate a front face detection signal;
The control unit receiving the front surface sensing signal according to the touch of the user and receiving the front surface sensing signal;
Selectively supplying power from the battery according to the front face detection signal; And
And charging the battery built in the fingerprint recognition card by supplying current through the contact portion. 12. The method of claim 11,
Wherein the step of supplying power by the control unit comprises:
And supplying power from the battery to the fingerprint recognition sensor or the security device in response to the front face detection signal. 13. The method of claim 12,
Wherein the step of supplying power by the control unit comprises:
The fingerprint recognition sensor detecting a user fingerprint based on the supplied power supply; And
Wherein the controller compares the sensed fingerprint with pre-stored authentication information to control power supply to the security device. 14. The method of claim 13,
Wherein controlling the supply of power to the security device comprises:
And activating a specific applet of the security device when the detected fingerprint matches previously stored authentication information. 12. The method of claim 11,
Further comprising the step of generating a rear surface sensing signal by sensing a touch of a user on a rear surface of the fingerprint recognition card, the rear surface sensor formed at a lower position facing the fingerprint recognition sensor and the front surface sensor. 16. The method of claim 15,
Wherein the step of supplying power comprises:
Receiving the front surface sensing signal and the rear surface sensing signal from the controller; And
Wherein the controller selectively supplies power from the battery according to the front face sensing signal and the rear face sensing signal.

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