KR102425295B1 - 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 operation method thereof, the fingerprint recognition card comprising: a fingerprint recognition sensor for acquiring fingerprint information according to a user's fingerprint contact; a bezel formed on the outer periphery of the fingerprint recognition sensor, the front sensor operating as a capacitive sensor; and a control unit for receiving a power detection signal and recognizing it as a power operation according to the user's contact sensed by the front sensor.

Description

Fingerprint recognition card and method for operating power using fingerprint recognition card {Fingerprint recognition card and method for operating power of the fingerprint recognition card}

The present invention relates to a fingerprint recognition card and a power operation method using the fingerprint recognition card. More specifically, it relates to a fingerprint recognition card implementing a module replacing a button-type power supply and a power operation method using the fingerprint recognition card.

Recently, as various payment technologies that do not use money have been developed, methods for making payment more simply using various means have been proposed. In the process of making a payment, both aspects should be considered when proposing a payment method because high security is required while pursuing convenience.

A payment method using a plastic card is a classic payment method. Although various payment methods are being developed, a basic payment method using a plastic card is still preferred. However, in the case of a payment method using a user terminal, additional security devices are being used, whereas payment using a plastic card is still approved without additional security devices, so it is possible to prevent illegal use in case the plastic card is lost. can't

Furthermore, if a portable plastic card can be used for various purposes in addition to payment work, the reluctance to separately carry a plastic card can be reduced.

US Patent No. 8,904,187 (Registered on Dec. 2. 2014)

The present invention provides a fingerprint recognition card capable of improving payment security by providing additional security means to a plate-shaped plastic card and a power operation method using the fingerprint recognition card.

The present invention promotes the utilization of step-by-step security means by providing an additional security means to the plastic card and allowing it to be used for various purposes.

The present invention operates through its own battery provided in a plastic card, selectively supplies power only to a specific area in order to minimize power consumption of its own battery, and enables its own battery to be charged through an existing card reader, so that it is a permanent card use can be expected.

The present invention provides a fingerprint recognition card capable of additionally securing space in the card and improving user convenience by implementing a power module integrated into the fingerprint sensor by replacing the button-type power supply provided in the fingerprint recognition card.

The present invention relates to a fingerprint recognition card and a power operation method thereof, and the fingerprint recognition card according to an embodiment of the present invention includes: a fingerprint recognition sensor for acquiring fingerprint information according to a user's fingerprint contact; a bezel formed on the outer periphery of the fingerprint recognition sensor, the front sensor operating as a capacitive sensor; and a control unit for receiving a power detection signal and recognizing it as a power operation according to the user's contact sensed by the front sensor.

Optionally, 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, and when the control unit receives the power detection signal from the front side sensor, the control unit and the front unit It can receive through a touch sensor disposed between the sensors. In addition, the front sensor may be made of a conductive metal. The fingerprint recognition card is formed on a rear surface of the fingerprint recognition card, and further includes a rear sensor formed under the fingerprint recognition sensor and the front sensor, and the rear sensor may operate as a capacitive sensor. The rear sensor may be implemented as a copper pad on a PCB.

The fingerprint recognition card may include: a display unit that visually displays at least one of whether a card user is identified, a payment processing step, a payment approval, and an OTP (One Time Password); a security device that encrypts and stores user identification information or card payment information; and an antenna for exchanging a signal between an external device and the security device. In this case, the security device includes a recording medium in which a plurality of applets are stored, and one applet among the plurality of applets may be activated under the control of the first controller.

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

Another aspect of the present invention is a method for operating a power supply of a fingerprint identification card including a fingerprint identification sensor, wherein the power detection signal is generated when a user's fingerprint touches a front sensor formed on the outer periphery of the fingerprint identification sensor. step; receiving the power detection signal according to the user's contact and transmitting it to the control unit; and activating the control unit according to the power detection signal.

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

According to the present invention, it is possible to provide a fingerprint recognition card that can utilize a plate-shaped plastic card for various purposes according to an external call command or a recognized fingerprint type, and a power operation method using the same.

According to the present invention, it is possible to provide a fingerprint recognition card capable of using its own battery but supplying power only to a specific area according to operation to minimize consumption of its own battery and a power operation method using the same.

According to the present invention, it is possible to provide a fingerprint recognition card capable of charging its own battery through a contact part that is contacted during the card reader.

According to the present invention, by using an alternative module such as a bezel instead of a button or a switch during power operation, there is an advantage of maximizing arrangement efficiency between components in the card and improving user convenience.

1 is a view showing the 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 an exemplary view for explaining a power operation method of a fingerprint recognition card according to an embodiment of the present invention.
5 is a diagram for explaining a power operation method of a fingerprint recognition card according to another embodiment of the present invention.
6 is a flowchart illustrating a power operation method of a fingerprint recognition card according to an embodiment of the present invention.
Like reference numbers in multiple drawings indicate like elements.

The specific structural or functional description of the embodiments according to the concept of the present invention disclosed in this specification is only illustrated for the purpose of explaining the embodiments according to the concept of the present invention, and the embodiments according to the concept of the present invention are It may be implemented in various forms and is not limited to the embodiments described herein.

Since the embodiments according to the concept of the present invention may have various changes and may have various forms, the embodiments will be illustrated in the drawings and described in detail herein. However, this is not intended to limit the embodiments according to the concept of the present invention to specific disclosed forms, and includes all modifications, equivalents, or substitutes included in the spirit and scope of the present invention.

Terms such as first or second may be used to describe various elements, but the elements should not be limited by the terms. The above terms are used only for the purpose of distinguishing one element from another, for example, without departing from the scope of the inventive concept, a first element may be termed a second element and similarly a second element. A component may also be referred to as a first component.

When a component is referred to as being “connected” or “connected” to another component, it may be directly connected or connected to the other component, but it is understood that other components may exist in between. it should be On the other hand, when it is mentioned that a certain element is "directly connected" or "directly connected" to another element, it should be understood that the other element does not exist in the middle. Other expressions describing the relationship between elements, such as "between" and "immediately between" or "neighboring to" and "directly adjacent to", etc., should be interpreted similarly.

The terms used herein are used only to describe specific embodiments, and are not intended to limit the present invention. The singular expression includes the plural expression unless the context clearly dictates otherwise. In this specification, terms such as “comprise” or “have” are intended to designate that a feature, number, step, operation, component, part, or combination thereof described herein is present, but one or more other features It is to be understood that it does not preclude the possibility of the presence or addition of numbers, steps, operations, components, parts, or combinations thereof.

Unless defined otherwise, 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 a commonly used dictionary should be interpreted as having a meaning consistent with the meaning in the context of the related art, and should not be interpreted in an ideal or excessively formal meaning unless explicitly defined in the present specification. does not

1 is a view showing the exterior of a fingerprint recognition card according to an embodiment of the present invention. In FIG. 1 (a) is a front view of the card 100, (b) is a rear view of the card 100. Referring to FIG. Referring to FIG. 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 . Additionally, according to an embodiment, a capacitive sensor 150 may be further included on the rear surface of the card 100 .

The fingerprint recognition card 100 may perform an operation such as card payment or user identification by providing payment information or user identification information stored in the IC chip 110 when the fingerprint of a legitimate user of the card is recognized. The plate-shaped fingerprint recognition card 100 has its own battery inside, and detects a fingerprint by providing power from its own battery to the fingerprint recognition sensor 130 in response to the operation of the power module. For example, a small amount of electricity flows through the bezel 140 of the card 100 , and when a user's fingerprint touches the bezel 140 , a human body contact is sensed and a power signal is transmitted to the control unit. That is, as the bezel 140 implemented on the edge of the fingerprint recognition sensor 130 operates as a capacitive sensor, the function of the power switch is implemented to supply power to the fingerprint recognition sensor 130 with its own battery, thereby providing the fingerprint recognition sensor. Activate (130).

The bezel 140 is a metal frame formed on the edge of the fingerprint recognition sensor 130 and may operate as a capacitive sensor. That is, the fingerprint recognition sensor 130 in an inactive state may be activated by detecting a human body contact and transmitting a detection signal. As another embodiment, the card 100 of the present invention may be implemented to include a capacitive sensor 150 on the rear side in addition to the front bezel 140 . For example, the capacitive sensor 150 on the back may be implemented as a copper plate disposed under the fingerprint recognition sensor 130 . When the sensor 150 is also disposed on the back side, when the user grips the front bezel 140 and the rear sensor 150 of the card with their fingers, it is possible to detect human body contact from both sides. As an embodiment, the sensing operation may be detected only from one of the front side or the rear side, or may be implemented to operate as a power switch when both sides of the sensing operation are sensed.

As an embodiment, the power operation method using the bezel 140 may be implemented to generate a power signal when a human body contact is sensed for a predetermined time or longer through a setting of a control unit connected to the bezel 140 . For example, when software is set to operate with power when touched for 3 seconds or longer, the power signal can be generated when the user touches the bezel 140 with a finger for 3 seconds or longer.

The display unit 120 may visually output various pieces of 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 black-and-white or color LCD or LED. The display unit 120 generates information that the power of the fingerprint identification card 100 is turned on or off, fingerprint identification information when a fingerprint is identified through fingerprint recognition, payment response information for a payment request, and OTP (One Time Password) or when received, the corresponding OTP information may be displayed.

The IC chip 110 refers to a control device or processor that performs control and operation 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 detected from the fingerprint recognition sensor 130 , the IC chip 110 may activate the IC chip to perform a subsequent operation (eg, OTP generation). Also, the IC chip 110 may calculate information using a predetermined algorithm or the like according to an input signal, and transmit the calculated result data to the display unit 120 .

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

2 is a block diagram illustrating internal components of the fingerprint recognition card 200 . Referring to FIG. 2 , the fingerprint recognition card 200 may include a first area 210 , a second area 240 , a third area 280 , a 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 region 210 is in a sleep state, detects an input of the bezel 270 , and provides power supplied from its own battery 285 to the second region 240 . can do. The bezel 270 may replace the power button and operate as a power switch.

As described above, according to an embodiment of the present invention, the conductive metal bezel 270 provided on the edge of the fingerprint recognition sensor 260 operates as a capacitive sensor instead of a power switch to detect human contact. The bezel 270 may be connected to the first controller 220 through the touch sensor 275 . When a touch is detected on the bezel 270 , a signal is transmitted to the touch sensor 275 , and the touch sensor 275 transmits an input signal to the first controller, thereby detecting a power signal. The first controller 220 may recognize the signal received from the touch sensor 275 as a power input signal, and activate the second region 240 or the third region 280 .

As another embodiment, the card 100 of the present invention may be implemented to include a capacitive sensor 150 also on the back side. For example, the capacitive sensor 150 on the back may be implemented as a copper plate disposed under the fingerprint recognition sensor 130 . When the sensor 150 is also disposed on the back side, when the user grips the front bezel 140 and the rear sensor 150 of the card with their fingers, it is possible to detect human body contact from both sides. When the sensor 270 or 150 generated on the front or rear side detects a human body contact, it transmits a detection signal to the touch sensor 275 and transmits it to the first control unit to turn on power, thereby serving as a power switch.

In the fingerprint recognition card 200 according to the present invention, in a situation in which power is not input, the power of the own battery 285 is hardly consumed, and according to the power input through the bezel 270, the first region 210 Since waking up from this sleep state and selectively providing power to other regions, power consumption of the own battery 270 can be minimized.

As an embodiment, the first control unit 220 may store authentication information. The first controller 220 may receive the fingerprint information detected in the second area 240 and determine whether the fingerprint information matches pre-stored authentication information. As another embodiment, the first control unit 220 receives only the determination result according to the detection of the fingerprint from the second control unit 250 , that is, whether the detected fingerprint matches the authentication information, and based on the determination result, the third area (280) can be activated. According to an embodiment, the first controller 220 may control 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 the fingerprint detected by the fingerprint recognition sensor 260 is normally acquired, whether the detected fingerprint matches pre-stored authentication information, and the type of the acquired fingerprint. .

When the first area 210 activates the third area 280, the information stored in the security device 290 included in the third area 280 is transmitted to the outside, or a specific applet ( applet), or a method of supplying power to the third area 280, a method of activating a communication function by connecting an antenna of the third area 280, and the like.

The display unit 230 included in the first area 210 displays ON/OFF of the card power, whether the fingerprint detected in the second area 240 is normally authenticated, and whether the battery of the own battery 270 is discharged. , or optionally, OTP information may be displayed. The display unit 230 of FIG. 2 may correspond to the display unit 120 of FIG. 1 .

The second area 240 is activated in response to the power of the battery 270 provided through the first area 210 to detect the user's fingerprint information through the fingerprint recognition sensor 260 . According to an embodiment, the second area 240 may include a second control unit 250 that is an authentication control unit. The authentication control unit 250 may compare the fingerprint information detected through the fingerprint recognition sensor 260 with pre-stored authentication information to determine whether the rightful owner of the fingerprint identification 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 (eg, the third area 280 ) or displays a fingerprint on the display unit 230 . It is implemented so that the recognition result can be displayed.

According to an embodiment, the fingerprint recognition card 200 may manage fingerprint information of a plurality of fingers, and the authentication control unit 250 may determine which finger the information sensed by the fingerprint recognition sensor 260 is a fingerprint of. have. For example, the authentication control unit 250 determines whether the fingerprint detected through the fingerprint recognition sensor 260 is a fingerprint of a thumb or a fingerprint of an index finger according to its characteristics, and the first control unit ( 220), information on whether or not the fingerprint matches and information on the type of fingerprint may be provided together. Fingerprint information of a plurality of fingers may be managed by the first control unit 220 , and the authentication control unit 250 may communicate with the first control unit 220 to determine which finger the detected fingerprint is.

The first controller 220 may manage an input signal associated with a specific finger, that is, an input signal for activating a specific applet, and provide the related input signal to the third region 280 as a fingerprint of a specific finger is input. . The third area 280 may execute different applets according to the input signal received from the first control unit 220 , and thus different applets may be executed according to the type of the authenticated finger.

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

According to an embodiment, the authentication control unit 250 may 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 more than a preset number of feature points for specifying a fingerprint are not acquired in the sensed fingerprint information. In addition, in order to accurately detect fingerprint information, a finger must be in contact with the fingerprint recognition sensor 260 for a certain period of time or more. you can request

In another embodiment, the authentication control unit 250 may display the start, completion of the fingerprint input of the fingerprint recognition sensor 260 , the fingerprint re-request, and the like through the display unit 230 . In this case, the authentication control unit 250 may transmit information displayed through 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 fingerprint information detection is completed are displayed. information can be displayed.

Also, the fingerprint comparison result of the authentication control unit 250 may be displayed to the user through the display unit 230 . For example, information such as 'PASS' when authentication is successful as a result of fingerprint recognition and 'FAIL' or 'Error' when authentication fails may be displayed on the display unit 230 .

As described above, the first controller 220 may provide a different input signal to the third region 280 according to the type of an authenticated finger, or the first controller 220 may perform a different operation by itself.

The user may predict the next operation of the fingerprint recognition card 200 according to the fingerprint comparison result. Also, when fingerprint authentication is not normally performed, an attempt may be made to input more accurate fingerprint information to the fingerprint recognition sensor 260 .

According to an embodiment, if authentication is not performed despite comparing fingerprint information and authentication information a preset number of times or more, an attempt to use the fingerprint identification card 200 by an illegal user due to the theft of the fingerprint identification card 200 , and the first control unit 220 limits the operation of the fingerprint recognition card 200 .

For example, even when a power signal through the bezel 270 is input to the fingerprint recognition card 200 , the first control unit 220 does not activate the second area 240 and/or the third area 280 . can

When the pre-stored authentication information and the fingerprint information obtained through the fingerprint recognition sensor 260 match, the first control unit 220 activates the third area 280 .

In this specification, the first control unit 220 and the second authentication unit 250 serving as the authentication control unit of the first area 210 and the second area 240 have been described as being separated from each other, but according to an embodiment, the first control unit ( 220) and the second control unit 250 may be implemented as one control unit.

In general, since the power consumption of the MCU (eg, the second control unit 250 ) connected to the fingerprint recognition sensor 260 is large, in an embodiment of the present invention, the fingerprint information is calculated through the first control unit 220 . It was implemented to work separately from verification. However, through improvement in performance and power consumption, it is also possible to configure the present invention with only one MCU (eg, the second control unit 250 ).

Activation of the third region 280 may be provided by power from its own battery 285 through the first region 210 or by operation activation of the third region 280 itself regardless of whether power is applied.

The third area 280 may include a security device 290 and an antenna 294 . The security device 290 may store pre-stored authentication information, card user information, user authentication information, and the like, and may include a recording medium for storing a plurality of applets according to an embodiment. The third region 280 may correspond to the IC chip 110 of FIG. 1 . The third area 280 may be referred to as a security area.

Furthermore, the security device 290 may include an encryption module to encrypt and store stored information or applets. For example, the secure device 290 may include a secure element. The SE may include a Universal Integrated Circuit Card (UICC), an embedded SE (eSE), and a micro SD. UICC can be used in the same meaning as a USIM chip required to open a mobile phone, and eSE can mean an element implemented in the form of an electronic device manufacturer attaching an SE to the main board of a device. Micro SD is mainly provided in a form that can be attached and detached, and outside the influence of mobile carriers, for example, micro SD is owned by the provider and service is made possible through it. Since SE is provided in a separate form from the central processing unit (CPU) that not only owns its own encryption system, but also controls the operation of the device equipped with the SE, it is strong against hacking and has high security. Accordingly, the activation of the security device 290 may be controlled by the first region 210 , but an operation inside the security device 290 is performed by the control means of the security device 290 itself.

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

As another embodiment, the security device 290 may request OTP generation from an external OTP generation module through the antenna 294 . For example, the security device 290 may request OTP generation by transmitting user information to an external OTP generation module using a method such as short-range wireless communication. The third area 280 receiving the OTP generated by the OTP generating module may display OTP information through the display unit 230 .

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

The security device 290 may perform various operations by performing different applets, and the execution of these applets is based on a call command received from the outside, an input signal received from the first control unit 220, or the card itself. It may be initiated by the input means provided in the. Using the input means provided in the card itself means selecting an applet executed in the security device 290 through a hard key of the card itself. For example, when the user wants to make a payment through the fingerprint recognition card 200, when the user wants to use the fingerprint recognition card 200 as an ID card, when the user wants to generate an OTP number, the fingerprint recognition by inputting a different hard key 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 finger input by the user, and different applets may be executed based on the input signals.

The third region 280 may further include a contact portion 292 in contact with the security device 290 . The contact part 292 may be electrically connected to an external card reader and the like to transmit an electrical signal to the security device 290 . In one embodiment, the charging circuit 287 connects the battery 270 and the contact portion 292 in contact with the security device 290 . The card reader may have a contact terminal that contacts the security device 290 through the contact portion 292 . The fingerprint recognition card 300 according to an embodiment of the present invention receives current through the contact portion 292 electrically connected to the card reader, and the charging circuit 287 that receives the current supplies current to its own battery 270 . It can be supplied and recharged.

By having such a charging circuit 287, even when the battery 270 is discharged, it is possible to easily charge the battery 270 through the card reader, thereby extending the life of the fingerprint recognition card 200. .

According to an embodiment, when a preset time elapses after the second area 240 and the third area 280 are activated, each area may be automatically deactivated. The activation time of each region may be the same or different, and the time may be counted by driving an internal timer. In addition, since activation of each region is controlled in the first region 210 , the activation time of each region is checked in the first region 210 , and when a preset activation time elapses, the second region 240 and/or the third region The region 280 may be inactivated.

In this way, the fingerprint recognition card 200 can perform fingerprint recognition and display operations without external power while minimizing consumption of its own battery 270 .

However, even when the power of the own battery 270 is exhausted, the fingerprint recognition card 200 must be continuously used.

3 is a diagram illustrating a fingerprint recognition card according to another embodiment of the present invention. The embodiment of FIG. 3 is a block diagram showing the configuration of a fingerprint recognition card implemented except for the first area 210 including the display unit and the first control unit of FIG. 2 . The same reference numerals denote substantially the same components, and since substantially the same configurations and operations are performed, detailed descriptions thereof will be omitted for convenience of description.

The fingerprint recognition card 300 may include a second area 340 , a third area 380 , a charging circuit 387 , an own battery 285 , and a bezel 370 . When the first region 210 and the first controller 220 are not included, the fingerprint recognition card 300 may use the second controller as a main processor. As an embodiment, when power is operated using the bezel 270 , the second control unit 350 is in a sleep state, detects an input of the bezel 370 , and supplies the power supplied from the own battery 385 to the second control unit 350 . The region 340 may be provided. That is, the bezel 370 may operate as a power switch by replacing the power button. Optionally, a touch sensor may be additionally provided between the bezel 370 and the second control unit 350 . For example, when a touch sensor is provided, the touch sensor may receive fingerprint information from the fingerprint recognition sensor 360 , calculate the fingerprint information, and transmit it to the second control unit 350 , and when the touch sensor is not provided, The second control unit 350 may be implemented to receive fingerprint information from the fingerprint recognition sensor 360 and perform all necessary calculations.

According to an embodiment of the present invention, the conductive metal bezel 370 provided on the edge of the fingerprint recognition sensor 260 operates as a capacitive sensor instead of a power switch to detect human body contact. The bezel 370 may be connected to the touch sensor or the second controller 350 . When a touch is detected on the bezel 370 , a signal is transmitted to the touch sensor, and the touch sensor transmits an input signal to the second controller 350 , thereby detecting a power signal. The second controller 350 may recognize a signal received from the bezel or the touch sensor as a power input signal, and activate the second region 240 or the third region 280 .

As such, without the first controller, when the second controller 350 performs both the power detection and fingerprint recognition functions, the second controller 350 performs better than the controller (eg, MCU) employed in the embodiment of FIG. 2 . and an MCU having an excellent capacity may be employed. In addition, when implemented using the second control unit 350, as additional space is secured during circuit arrangement, there is an advantage that components capable of adding or improving other functions can be further arranged.

As another embodiment, as shown in (b) of Figure 1, the card 100 of the present invention can be implemented to include a capacitive sensor 150 also on the back side. For example, the capacitive sensor 150 on the back may be implemented as a copper plate disposed under the fingerprint recognition sensor 130 . When the sensor 150 is also disposed on the back side, when the user grips the front bezel 140 and the rear sensor 150 of the card with their fingers, it is possible to detect human body contact from both sides. A sensor (eg, a bezel or a copper plate on the rear side) generated on the front or rear side transmits a detection signal to the touch sensor when a human body contact is detected, and transmits it to the second control unit 350 to turn on power, thereby serving as a power switch carry out

4 is an exemplary view for explaining a power operation method of a fingerprint recognition card according to an embodiment of the present invention, and is a cross-sectional view of the card 400 . 4 (a) illustrates a case in which the bezel 440 surrounding the fingerprint recognition sensor 430 protrudes from the sensor 430, (b) is the sensor 430 and the bezel 440 have the same height. It shows an implementation case. The card 400 according to the present embodiment may include a controller 420 , a fingerprint recognition sensor 430 , and a bezel 440 .

As shown in (a) of FIG. 4 , the bezel 440 and the fingerprint recognition sensor 430 may be respectively connected to the controller 420 . As an embodiment, the bezel 440 may be designed to have a height higher than that of the sensor 430 to protect the sensor 430 and to be contacted first when a finger is touched (FIG. 4(a)). As another embodiment, as shown in (b) of FIG. 4 , the bezel 460 implemented on the card 450 may be implemented with the same height as the fingerprint recognition sensor 430 .

As described above, the bezel 440 implemented with a conductive metal may sense human body contact and transmit it to the controller 420 . As an embodiment, the bezel 440 may transmit a power detection signal to the first controller 220 or the second controller 350 . As another embodiment, when the touch sensor is disposed between the bezel 440 and the controller 420 , a signal detected by the bezel 440 is transmitted to the touch sensor, and the touch sensor sends a power detection signal to the controller 420 . By delivering , it can be implemented so that power is supplied.

For example, when a user uses a fingerprint recognition card, when the user puts his or her finger on the sensor, the finger comes into contact with the bezel 460 and power is operated through the bezel 460 . If the sensing operation speed is improved, the interval between the power-on operation and the fingerprint recognition time can be reduced, so that the user can feel as if fingerprint recognition is performed immediately upon touching a finger without waiting for a separate power-on 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, but the fingerprint recognition card according to the present invention (400, 450) has the effect of maximizing the user's convenience by implementing the sensor and the power function in an integrated form.

5 is a diagram for explaining a power operation method of the fingerprint recognition card 500 according to another embodiment of the present invention. The card 500 may include a controller 520 , a fingerprint recognition sensor 530 , a bezel 540 , and a sensor 550 on the back side.

In the embodiment of this figure, the card 500 may be implemented to have a capacitive sensor 550 on the back side. For example, the capacitive sensor 550 on the back may be implemented as a copper plate disposed under the fingerprint recognition sensor 530 . When the sensor 550 is also disposed on the back side, when the user grips the front bezel 540 and the rear sensor 550 of the card with their fingers, it is possible to detect human body contact from both sides.

The sensor (eg, the bezel 540 or the copper plate 550 on the rear side) generated on the front or rear side transmits a detection signal to the touch sensor when a human body contact is detected, and transmits it to the control unit 520 so that power is turned on. It acts like a switch. As described above, before the signal is transmitted to the controller 520 , the signal may be transmitted via the touch sensor.

As an embodiment, the card 500 performs a power operation even if only one of a case in which a human body contact is detected through the bezel 540 of the front part or a case where a human body contact is detected through the sensor 550 at the rear side occurs. can detect In another embodiment, the card 500 may be implemented to detect both the front side sensor 540 and the rear side sensor 550 (eg, when holding the card with two fingers), so as to detect it with a power operation. . As another embodiment, it may be implemented to perform different operations when recognized from only one side of the front and rear surfaces and when recognized from both sides.

6 is a flowchart illustrating a power operation method of a fingerprint recognition card according to an embodiment of the present invention. The fingerprint recognition card is in a standby state before receiving a power detection signal (step 610). The control unit and the security device may be in an OFF state to minimize power consumption. However, the control unit to which the power module including the bezel 140 and the rear sensor 150 is connected may be in a sleep state, and may be activated when receiving a power detection signal to supply power to other modules.

As an embodiment, when the configuration of the fingerprint recognition card is arranged as shown in FIG. 2 , the first control unit 220 may receive a signal sensed from the bezel through the touch sensor (step 620 ). The first control unit 220 is activated according to the sensed signal, and when a fingerprint recognition function is required, the second control unit 250 is activated (steps 630 and 640). According to an embodiment, the first control unit 220 may design which configuration (the second control unit 250 or the security device 290 ) to be activated after being activated.

When the second control unit 250 is activated, the fingerprint recognition sensor 260 is activated to detect the user's fingerprint (step 650). If the fingerprint information is not properly recognized, re-recognition may be requested through the guidance of the display unit (step 660).

Next, the controller may verify the fingerprint information (step 670). As an embodiment, the second control unit 250 first verifies what type of information (eg, which finger information) the input fingerprint information is and transmits it to the first control unit 220 , and the first control unit 220 It can be verified whether the fingerprint information is the same as the stored information. As another embodiment, when only the second control unit 250 is configured without the first control unit 220 , the second control unit 250 may be implemented to verify both the type of fingerprint information and whether it is genuine.

When the verification of the fingerprint information is completed, the first control unit 220 may activate the security area to perform a subsequent operation ( 680 ). For example, when the fingerprint recognition card functions as a pass or ID card, it can be activated by connecting an antenna, and in the case of an OTP card, an OTP algorithm can be executed to display the OTP number.

So far, the present invention has been described in detail with reference to the preferred embodiments shown in the drawings. These embodiments are not intended to limit the present invention, but are merely illustrative, and should be considered in an illustrative rather than a restrictive sense. The true technical protection scope of the present invention should be determined by the technical spirit of the appended claims rather than the above description. Although specific terms are used in this specification, they are only used for the purpose of describing the concept of the present invention and are not used to limit the meaning or scope of the present invention described in the claims. Therefore, those of ordinary skill in the art to which the present invention pertains will understand that various modifications and equivalent other embodiments are possible without departing from the essential technical spirit of the present invention as claimed in the claims. It is to be understood that equivalents include both currently known equivalents as well as equivalents developed in the future, ie, all elements invented to perform the same function, regardless of structure.

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

Claims (16)

In the fingerprint recognition card,
a fingerprint recognition sensor for acquiring fingerprint information according to a user's fingerprint contact;
As a bezel formed on the outer periphery of the fingerprint recognition sensor, it operates as a capacitive sensor, and detects the user's touch at the same time as the user touches the fingerprint with respect to the fingerprint recognition sensor. a front sensor that generates
The rear part is formed on the rear surface of the fingerprint recognition card, and is formed on the rear surface facing the fingerprint recognition sensor and the front part sensor formed on the front side to operate as a capacitive sensor, so that the rear part generates a rear part detection signal when the user makes contact. sensor; and
and a controller for recognizing the operation of supplying power from a battery when receiving the front detection signal and the rear detection signal from the front sensor and the rear sensor. The method of claim 1,
The controller includes a first controller connected to the display unit or a second controller connected to the fingerprint recognition sensor. 3. The method of claim 2,
The control unit, the fingerprint recognition card, characterized in that for receiving the front detection signal through a touch sensor disposed between the control unit and the front sensor. The method of claim 1,
The front sensor is a fingerprint recognition card, characterized in that made of a conductive metal. The method of claim 1,
The control unit is
The fingerprint recognition card, characterized in that by supplying the power to the fingerprint recognition sensor to detect a user's fingerprint, and comparing the detected fingerprint with pre-stored authentication information to control the supply of power to the security device. delete The method of claim 1,
a display unit for visually displaying at least one of card user identification, payment processing step, payment approval, and OTP (One Time Password); and
A fingerprint identification card further comprising an antenna for sending and receiving signals between the external device and the security device. 8. The method of claim 7,
The security device includes a recording medium in which a plurality of applets are stored,
A fingerprint recognition card in which one applet among the plurality of applets is activated according to the control of the controller. 3. The method according to claim 1 or 2,
The control unit is
A fingerprint recognition card, characterized in that determining at least one of whether the fingerprint detected by the fingerprint recognition sensor is normally acquired, whether the detected fingerprint matches pre-stored authentication information, and the type of the acquired fingerprint. 9. The method of claim 8,
The control unit determines the type of the fingerprint obtained from the fingerprint recognition sensor and activates one of the plurality of applets. In the power operation method of a fingerprint recognition card comprising a fingerprint recognition sensor and a built-in battery,
generating, by a front sensor formed on an outer periphery of the fingerprint recognition sensor, a user's fingerprint contact and generating a front detection signal;
generating a rear detection signal by detecting a user's touch by a rear sensor formed at a lower position facing the fingerprint recognition sensor and the front sensor on the rear surface of the fingerprint recognition card;
receiving, by a control unit, the front side detection signal and the rear side detection signal according to the user's contact; and
and the control unit selectively supplying power from the battery according to the front side detection signal and the rear side detection signal. 12. The method of claim 11,
The step of the control unit supplying the power,
and supplying, by the controller, power from the battery to the fingerprint recognition sensor or the security device in response to the front part detection signal. 13. The method of claim 12,
The step of the control unit supplying the power,
detecting, by the fingerprint recognition sensor, a user's fingerprint based on the supplied power; and
and controlling, by the controller, the supply of power to the security device by comparing the detected fingerprint with pre-stored authentication information. 14. The method of claim 13,
The step of controlling the supply of power to the security device,
and activating, by the controller, a specific applet of the security device when the detected fingerprint and pre-stored authentication information match. delete delete

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