KR20150093277A - Contactless Card for Including Display and Method for Controlling Contactless Card - Google Patents

Abstract

The present invention relates to a contactless card having a display, and a method for controlling the same. The contactless card having a display, regarding a contactless card which includes an antenna unit transmitting and receiving a radio frequency signal in the card and a display unit capable of displaying numbers or characters on one side of the card, includes: an activation detection unit which detects activation of the display unit, arranged on one side of the card, by using power generated based on a signal of a magnetic wave energy field applied from the outside of the card to the antenna unit; and an information display unit which controls specified information to be displayed on the activated display unit.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a contactless card having a display and a control method thereof,

The present invention provides a contactless card having a display for displaying information designated by a display provided on a card surface by using an external power source via an antenna.

A card-shaped OTP card, which is a card-shaped, dynamically generated OTP (One Time Password) in time synchronization with a built-in IC chip, and displayed through the display of the card's surface, was commercialized (http: // www. dt.co.kr/contents.html?article_no=2006101902010760713004).

However, the conventional OTP card needs to maintain time internally in order to generate an OTP in a time synchronization manner, and a battery must be embedded therein. Therefore, the conventional OTP card can be used only until the battery life has expired, and when the battery life is over, a new OTP card must be issued and used.

In order to solve the above problems, an object of the present invention is to provide a contactless card having an antenna unit for transmitting and receiving radio frequency signals inside a card, and a display unit capable of displaying numbers or characters on one side of the card, Detects the activation of a display unit provided on one side of the card by using a power generated based on a signal of an electromagnetic wave energy field applied from the outside of the card to the antenna unit, A contactless card having a display and a control method thereof.

A contactless card having a display according to the present invention includes an antenna unit for transmitting and receiving a radio frequency signal to and from a card and a display unit capable of displaying numbers or characters on one side of the card, An activity detection unit for detecting activation of a display unit provided on one side of the card using a power generated based on a signal of an electromagnetic wave energy field applied to the antenna unit; And an information display section for controlling the display section.

According to another aspect of the present invention, there is provided a contactless card having a display, comprising: a time value checking unit for reading a radio frequency signal received through the antenna unit and confirming a time value; And an OTP generation unit for dynamically generating an OTP (One Time Password) of a designated code scheme by using the generated OTP. The information display unit can control the dynamically generated OTP to be displayed through the activated display unit.

According to the present invention, the time value checking unit can identify a usable time value as a dynamic seed of a designated code generation algorithm by reading a digital signal generated by demodulating a radio frequency signal received through the antenna unit.

According to the present invention, the OTP generation unit can identify a seed value stored in a designated storage area, dynamically generate an OTP of a specified code scheme using the time value as a dynamic seed, and using the stored seed value as a fixed seed .

According to the present invention, the contactless card having the display further comprises an information storage unit for storing a seed value to be used as a fixed seed for dynamically generating an OTP of a specified code scheme in a designated storage area. And a non-contact type card.

According to the present invention, the contactless card having the display further comprises an authentication processing unit for reading the radio frequency signal received through the antenna unit, confirming the authentication information, and authenticating the validity of the authentication information The contactless card having a display for displaying the contactless card.

According to the present invention, the contactless card with the display further comprises a power source confirmation unit for checking whether the power generated based on the signal of the electromagnetic wave energy field applied to the antenna unit is greater than or equal to a reference value for activating the display unit The contactless card having a display.

According to the present invention, the noncontact type card having the display further comprises a status confirming unit for confirming whether the wireless terminal corresponding to the source of the radio frequency signal is in close contact with the card. Contactless card.

According to the present invention, the contactless card having the display further comprises a state checking unit for checking whether the display unit is in a state of being exposed in a state in which the wireless terminal corresponding to the source of the radio frequency signal closely contacts the card A contactless card with a display.

A method for controlling a contactless card with a display according to the present invention is a method for controlling a contactless card having an antenna unit for transmitting and receiving radio frequency signals inside a card and a display unit capable of displaying numbers or characters on one side of the card, A first step of detecting activation of a display unit provided on one side of the card using a power source generated based on a signal of an electromagnetic wave energy field applied from the outside of the card to the antenna unit; And a second step of controlling the information to be displayed.

According to another aspect of the present invention, there is provided a method of controlling a contactless card with a display, comprising the steps of: a) reading a radio frequency signal received through the antenna and confirming a time value; And a second step of dynamically generating an OTP (One Time Password) of a designated code scheme by using the dynamic seed of the OTP, wherein the second step is to control the dynamically generated OTP to be displayed through the activated display unit can do.

According to the present invention, in the step 1-1, a digital signal generated by demodulating a radio frequency signal received through the antenna unit is read, and a time value available as a dynamic seed of a designated code generation algorithm can be confirmed.

According to the present invention, in the step 1-2, the seed value stored in the designated storage area is checked, the time value is used as a dynamic seed, and the stored seed value is used as a fixed seed to dynamically generate an OTP can do.

According to the present invention, the method for controlling a contactless card with the display may further include storing a seed value to be used as a fixed seed for dynamically generating an OTP of a designated code scheme in a designated storage area.

According to the present invention, the method for controlling a contactless card with the display may further include reading the radio frequency signal received through the antenna unit to confirm the authentication information, and authenticating the validity of the authentication information.

According to another aspect of the present invention, there is provided a method for controlling a contactless card with a display, the method comprising the steps of: confirming whether a power generated based on a signal of an electromagnetic wave energy field applied to the antenna unit is equal to or greater than a reference value .

According to the present invention, the method for controlling a contactless card with the display may further include the step of checking whether the wireless terminal corresponding to the source of the radio frequency signal is in close contact with the card.

According to another aspect of the present invention, there is provided a method for controlling a contactless card with a display, the method comprising the steps of: checking whether the display unit is in an exposed state in a state in which the wireless terminal corresponding to a source of the radio frequency signal closely contacts the card have.

According to the present invention, it is possible to provide a display-mounted card that displays information (for example, OTP, etc.) designated through a display provided on a card surface through a card-type contactless card but does not incorporate a battery and can be permanently used without replacement .

1 is a functional block diagram of a contactless card having a display according to an embodiment of the present invention.
2A and 2B are views illustrating a contactless interface method between a contactless card and a radio frequency signal source according to an embodiment of the present invention.
3 is a diagram illustrating a process of recording a unique code and a seed value in a contactless card according to an embodiment of the present invention.
4 is a diagram illustrating a process of setting a reference value for activating a display unit on a contactless card according to an embodiment of the present invention.
5 is a diagram illustrating a process of determining activation of a display unit of a contactless card according to an embodiment of the present invention.
6 is a diagram illustrating a process of detecting activation of a display portion of a contactless card according to an embodiment of the present invention.
7 is a view illustrating a process of confirming the close contact state of the contactless card and the exposed state of the display unit according to the method of the present invention.
8 is a diagram illustrating a process of dynamically generating an OTP in a contactless card according to an embodiment of the present invention and displaying the generated OTP through a display unit.

The operation principle of the preferred embodiment of the present invention will be described in detail with reference to the accompanying drawings and description. It should be understood, however, that the drawings and the following detailed description are exemplary and explanatory and are intended to provide further explanation of the invention, and are not to be construed as limiting the present invention.

In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear. The terms used below are defined in consideration of the functions of the present invention, which may vary depending on the user, intention or custom of the operator. Therefore, the definition should be based on the contents throughout the present invention.

As a result, the technical idea of the present invention is determined by the claims, and the following embodiments are merely means for effectively explaining the technical idea of the present invention to a person having ordinary skill in the art to which the present invention belongs Only.

1 is a functional block diagram of a contactless card 100 having a display according to an embodiment of the present invention.

1 illustrates a configuration of a contactless card 100 having a display for displaying information designated through a display provided on a card surface using an external power source via an antenna, Those skilled in the art will be able to refer to and / or modify the FIGURE 1 to illustrate various ways of implementing the configuration of the contactless card 100 with the display (e.g., It is to be understood that the invention is not limited to the disclosed exemplary embodiments, but it is to be understood that the invention is not limited to the disclosed exemplary embodiments.

According to the present invention, a contactless card 100 having a display includes an antenna unit 185 for transmitting and receiving a radio frequency signal, a display unit 190 provided on a card surface for displaying an OTP of a designated code system, A chip 182 for activating a display unit 190 provided on a card surface by using an external power source through the antenna unit 185 and for controlling information displayed through the activated display unit 190, Module 105 as shown in FIG.

According to an embodiment of the present invention, the chip module 105 reads a radio frequency signal received through the antenna unit 185 based on a power applied from the outside through the antenna unit 185, And generates an OTP (One Time Password) of a designated code scheme using the identified time value as a seed, and controls the display unit 190 to display the dynamically generated OTP. According to an embodiment of the present invention, the contactless card 100 further includes a sensor unit 195 for guiding a radio frequency signal received from an external source and / or an external source through the antenna unit 185 to satisfy a specified condition . According to the present invention, it is preferable that the contactless card 100 does not include a battery discharged over time.

The noncontact type card 100 is a plastic card that can be carried on a wallet and can be inserted into a reader, such as a credit card, and is preferably a length of about 85.6 / 54mm in width / length according to the ISO 7816 standard, It is preferable to satisfy the ID-1 standard consisting of the thickness. However, the contactless card 100 does not satisfy only the ID-1 standard of ISO 7816, and it can be manufactured in various forms (for example, ID-00, ID-000, etc.).

The display unit 190 is a collective term for a display unit mounted on one surface of the contactless card 100 and displays numbers or letters. The display unit 190 preferably includes a liquid crystal display mountable on a card thickness of about 0.76 mm or an electronic ink Display. However, the display unit 190 is not limited to the liquid crystal or electronic ink, and any display may be used as long as it is a display mountable on one side of the non-contact type card 100 within the card thickness. The display unit 190 is electrically connected to the chip module 105 incorporated in the contactless card 100.

According to an embodiment of the present invention, the display unit 190 may display information specified when an operation power generated based on a signal of an electromagnetic wave energy field applied from the outside of the card to the antenna unit 185 is equal to or larger than a designated size, OTP can be enabled to display.

The antenna unit 185 is a collective term of an antenna coil incorporated in the contactless card 100 and is electrically connected to a chip module 105 built in the contactless card 100. The antenna unit 185 receives a radio frequency signal transmitted from a radio frequency signal source of close proximity (for example, within 10 cm) and transmits the radio frequency signal to the electrically connected chip module 105, And performs processing for exchanging a radio frequency signal with a radio frequency signal source of a close distance based on the power supply. According to an embodiment of the present invention, the radio frequency signal source may include an antenna included in a user's wireless terminal (e.g., a mobile phone, a smart phone, a tablet PC, etc.). For example, the radio frequency signal source may include an antenna connected to an NFC chip included in a user's wireless terminal.

According to the method of the present invention, it is preferable that the user's wireless terminal corresponding to the radio frequency signal source and the contactless card 100 interface as close as possible to each other as shown in FIG. 2, A power source capable of activating the display unit 190 can be generated based on a signal of an electromagnetic wave energy field applied to the antenna, and a user can operate the display unit 190 provided on one surface of the contactless card 100, (E.g., OTP) displayed on the display unit 190 by the user.

According to the embodiment of the present invention, the antenna unit 185 is configured such that the signal of the electromagnetic wave energy field formed by the radio frequency signal source in the state in which the contactless card 100 and the wireless terminal are as close as possible to each other It is preferable that the contactless card 100 is embedded in the contactless card 100 with the antenna coil area and the coil winding count calculated to be applied. For example, when the contactless card 100 and the wireless terminal are as close as possible to each other as shown in FIG. 2, the area of the antenna coil is set so as to keep the distance as close as possible to the radio frequency signal source of the wireless terminal, . ≪ / RTI > Or the number of turns of the antenna coil of the ordinary RF card is three, the number of times of winding the antenna coil of the contactless card 100 is increased to five or six times so that the power required for activating the display unit 190 is rapidly generated .

The sensor unit 195 senses whether the user's wireless terminal corresponding to the radio frequency signal source and the contactless card 100 are in close contact with each other as shown in FIG. According to the embodiment of the present invention, the sensor unit 195 includes an optical sensor (or a proximity sensor). When the user's wireless terminal and the contactless card 100 are closely contacted to each other as shown in FIG. 2, And generates a specified specific sensing signal. According to an embodiment of the present invention, the sensor unit 195 may function as an auxiliary power unit 175 that generates power required to activate the display unit 190 using an optical signal.

The chip module 105 is a general term of a chip and / or a logic circuit embedded in the contactless card 100 and is preferably a non-contact type or a combination type integrated circuit (IC) in which one or more processors and a non- Integrated circuit) chip. Hereinafter, technical features of the present invention will be described with reference to an embodiment in which the chip module 105 dynamically generates an OTP and displays the generated OTP through the display unit 190.

1, the chip module 105 includes an interface unit 165 electrically connected to the antenna unit 185, a power unit 175 for generating operating power in connection with the antenna unit 185, A radio unit 170 for processing radio communication for exchanging a radio frequency signal with the outside through the antenna unit 185, and a control unit 170 for controlling various kinds of information required for the operation of the chip module 105 and various information necessary for OTP generation And a control unit 110 for controlling the operation of the chip module 105 and generating the OTP and displaying the generated OTP through the display unit 190. [

The interface unit 165 is electrically connected to the antenna unit 185 inside the contactless card 100 and is connected to the antenna unit 185 when the contactless card 100 is in the effective range of the electromagnetic wave energy field. And applies a signal and a signal for power generation to the chip module 105.

The power supply unit 175 generates operating power in the form of inductive coupling or electrostatic coupling based on a signal of an electromagnetic wave energy field applied from the antenna unit 185 through the interface unit 165. Those skilled in the art will appreciate the technical features of generating an operating power using inductive coupling or electrostatic coupling. Therefore, a detailed description thereof will be omitted for the sake of convenience.

The power generated by the power supply unit 175 is applied to each component of the chip module 105 and is also applied as an operating power of the display unit 190 through the chip module 105. 1, the power supply unit 175 is provided inside the chip module 105, but the present invention is not limited thereto. The power supply unit 175 may be connected to the outside of the chip module 105, The present invention can be embodied in the form of being embedded in the contactless card 100.

The radio unit 170 is connected to the antenna unit 185 through the interface unit 165 according to a specified standard (for example, NFC (Near Field Communication) standard) based on the power supplied through the power unit 175. [ And converts the digital signal received from the control unit 110 into a radio frequency signal of a specified standard and outputs the radio frequency signal to the antenna unit 185 ) To the outside.

The memory unit 180 stores various information required for the operation of the chip module 105 (not shown), and stores various information necessary for generating the OTP. Preferably, the memory unit 180 stores a unique code that uniquely identifies the chip module 105 (or the contactless card 100), and the control unit 110 stores at least one storage required to generate the OTP The seed value of the form can be stored. Meanwhile, only a value obtained by reading a radio frequency signal received from the outside through the radio unit 170 is used as a seed for the OTP, or information (for example, unique code, etc.) previously stored in the memory unit 180 is seeded , The seed value of the storage form can be omitted. According to the embodiment of the present invention, the unique code and the storage type seed value can be recorded in the memory unit 180 through the manufacturing apparatus or the issuing apparatus at the time when the contactless card 100 is manufactured or issued.

The memory unit 180 may store a reference value for reading power generated through the power unit 175 based on a signal of an electromagnetic wave energy field applied through the antenna unit 185. Meanwhile, the reference value may be set in the form of a control circuit associated with the power supply unit 175 or a conditional statement on a program code. In this case, the memory unit 180 may store the reference value for reading the power supply, Do. Alternatively, when the chip module 105 can detect the active / inactive state of the display unit 190 through the power supplied through the power supply unit 175, the reference value may not be set.

When authentication information for dynamic generation of OTP is received in a radio frequency signal received through the antenna unit 185 according to an embodiment of the present invention, the memory unit 180 may be configured to authenticate the validity of the authentication information Authentication values can be stored. The authentication information may include at least one of PIN information input by a user and / or identification information for identifying a valid wireless terminal capable of requesting dynamic generation of the OTP (or a specific program included in the wireless terminal) . The authentication value may include a value to be compared with the authentication information, or may include the authentication information, a calculation value for performing a specified verification operation, and a prediction value for predicting a result of the verification operation. On the other hand, when the authentication information is not received or the validity of the authentication information is not authenticated, the authentication value may be omitted.

The control unit 110 controls the operation of the chip module 105 based on the information stored in the memory unit 180 based on the power supplied through the power unit 175, Or may include logic circuitry and may include program code that is loaded into the execution memory and computed by the processor. Hereinafter, the functional unit corresponding to the logic circuit or the program code for the operation of the present invention will be described in this control unit 110 for convenience.

Referring to FIG. 1, the control unit 110 may include an information storage unit 115 for storing various information including a seed value for generating an OTP in a designated storage area of the memory unit 180. Meanwhile, only a value obtained by reading a radio frequency signal received from the outside through the radio unit 170 is used as a seed for the OTP, or information (for example, unique code, etc.) previously stored in the memory unit 180 is seeded The information storage unit 115 may not store the seed value in the designated storage area.

At the time when the contactless card 100 is manufactured or issued, the information storage unit 115 is stored in a designated storage area of the memory unit 180 from the manufacturing apparatus or issuing apparatus designated through the interface unit 165 Specific code and / or seed value. According to the present embodiment, the interface unit 165 may provide a contact interface. In this case, the information storage unit 115 may receive the unique code and / or the seed value through the contact interface . The information storage unit 115 determines whether a valid unique code and / or seed value is recorded in the designated storage area of the memory unit 180. If the valid unique code and / or seed value is recorded in the designated storage area If not, the received unique code and / or seed value can be recorded in the designated storage area.

According to an embodiment of the present invention, the information storage unit 115 is provided on one side of the contactless card 100 through the antenna unit 185 from a manufacturing apparatus or an issuing apparatus designated through the interface unit 165 The display unit 190 receives the reference value corresponding to the minimum operation power for displaying the OTP and records the reference value in the designated storage area of the memory unit 180, A reference value corresponding to a possible operation power source can be set. On the other hand, when the reference value is implemented in the form of a conditional statement on a control circuit or a program code associated with the power supply unit 175, the information storage unit 115 may not record the reference value.

According to the embodiment of the present invention, the size of the minimum operating power source for the chip module 105 to respond to a radio frequency signal from the outside and / or to dynamically generate an OTP, The size of the minimum operating power source for activating the display unit 190 is different from the minimum operating power source for displaying the OTP by activating the display unit 190, Is greater than the minimum operating power source size for reacting to and / or dynamically generating OTP from the outside. For example, a minimum operating power source for the chip module 105 to respond to radio frequency signals from outside and / or to dynamically generate an OTP may be a power supply for the antenna 185 and the power supply 175, The minimum operating power source capable of activating the display unit 190 may be a distance of about 1 cm from the same radio frequency signal source The antenna unit 185 and the power unit 175 can be generated only when they are present in the electromagnetic energy field for more than a few seconds and the minimum operating power for activating the display unit 190 May not reach.

However, the OTP of the present invention receives a time value from the outside through a radio frequency signal and is dynamically generated by using a time value received from the outside as a dynamic seed. Even if the power supplied through the antenna 185 and the power supply 175 satisfies the condition of the minimum operating power for dynamically generating the OTP and dynamically generates the OTP, 190 is activated and the time difference between the time of displaying the generated OTP becomes longer than a specified time difference, the OTP displayed on the display unit 190 is input to the designated terminal, The probability of the authentication error increases even if the OTP is increased. If the validity time of the OTP is increased to prevent this, the risk of hacking illegally authenticated by reusing the forced error induction for the OTP increases, . Therefore, the chip module 105 of the present invention waits without generating a valid OTP even if the power supplied through the antenna 185 and the power supply unit 175 reaches the minimum operation power for dynamically generating the OTP, It is preferable to dynamically generate the OTP at the time when the display unit 190 is activated and immediately display the OTP through the display unit 190 so as to reduce the probability of occurrence of an error and maintain a high level of security. A reference value corresponding to a minimum operation power source capable of activating the display unit 190 is set in the chip module 105.

According to the embodiment of the present invention, the reference value for the power source for determining the activation of the display unit 190 may be a manufacturing process of the contactless card 100, a primary issuing process, a secondary issuing process (A process of recording personalized information on a user in the memory unit 180 of the personal computer 100).

When the reference value is set during the manufacturing process of the contactless card 100 or during the primary issuance process, the reference value is set to a radio frequency signal transmitted from various wireless terminals used as a radio frequency signal source of the contactless card 100 (For example, 1.2 seconds or the like) specified in the reference proximity distance (for example, the state in which the contactless card 100 is in close contact with the wireless terminal) based on the strength (intensity of the electromagnetic wave energy field) (Or a minimum value) of power that can be generated to enable the display unit 190 to be activated through the power supply unit 175.

If the reference value is set during the primary issuing process or the secondary issuing process in which the user's wireless terminal is interfaced with the contactless card 100, (For example, 1.2 seconds or the like) specified in a reference proximity distance (e.g., a state in which the contactless card 100 is in close contact with the wireless terminal) based on the radio frequency signal strength corresponding to the radio frequency signal source of the radio frequency signal source And may be set to a power supply value capable of activating the display unit 190 through the power supply unit 185 and the power supply unit 175. [ That is, not only are the positions of the radio frequency signal sources for transmitting the radio frequency signals on the wireless terminals for each model (or each wireless terminal) possessed (or possessed) by the user are different from each other, The intensity of the radio frequency signal (= intensity of the electromagnetic energy field) may be different from each other. In this case, the reference value is preferably set to a value optimized to a radio frequency signal strength corresponding to a radio frequency signal source of a wireless terminal owned or owned by the user.

If the activity detection unit 150 for detecting the active state of the display unit 190 is provided in the chip module 105, the reference value may not be set in the chip module 105. In this case, The chip module 105 can detect the active state of the display unit 190 and dynamically generate the OTP and display the generated OTP through the display unit 190. [

1, the control unit 110 reads a radio frequency signal received through the antenna unit 185 based on a power supplied through the antenna unit 185 and the power unit 175, And an authentication processing unit 120 for verifying the validity of the authentication information through the authentication value, and may include a response transmission unit 140 for responding to the authentication result of the authentication information .

The authentication processing unit 120 may receive a radio frequency signal (for example, demodulated through the radio unit 170) received through the antenna unit 185 based on the power supplied through the antenna unit 185 and the power unit 175, And confirms the authentication information of the designated information structure.

When the authentication information is confirmed, the authentication processing unit 120 compares the received authentication information with the authentication value stored in the memory unit 180 to authenticate the validity of the authentication information, Performs a specified verification operation on the information to read whether the predicted result is derived, and authenticates the validity of the authentication information. The response transmitter 140 controls the response signal corresponding to the authentication result of the authentication information performed through the authentication processor 120 to be transmitted through the antenna unit 185.

1, the control unit 110 reads a radio frequency signal received through the antenna unit 185 based on a power supplied through the antenna unit 185 and the power unit 175, And a time value confirmation unit 125 for confirming a time value to be used as a dynamic seed, and a response transmission unit 140 for controlling the response signal of the radio frequency signal including the time value to be transmitted.

The time value determiner 125 may determine a time value based on a radio frequency signal received through the antenna unit 185 based on the power supplied through the antenna unit 185 and the power unit 175 ) To identify the time value to be used as the dynamic seed of the OTP.

The time value verifying unit 125 may determine a time value based on a radio frequency signal received through the antenna unit 185 based on the power supplied through the antenna unit 185 and the power unit 175 It is desirable to read and identify the time value to be used as the dynamic seed of the OTP. The OTP is dynamically generated at a predetermined period when power more than a power source capable of dynamically generating an OTP is applied through the antenna unit 185 and the power unit 175. When the display unit 190 is activated, OTP, the time value confirmation unit 125 reads the radio frequency signal received through the antenna unit 185 regardless of whether the display unit 190 is activated or not, and uses the radio frequency signal as the dynamic seed of the OTP The time value can be confirmed, and thus the present invention is not limited thereto.

According to the first time receiving method of the present invention, the time value checking unit 125 reads a radio frequency signal received through the antenna unit 185 to detect a specified trigger signal (e.g., an RST signal) The response transmission unit 140 controls the response signal (e.g., ATR signal, etc.) to be transmitted through the wireless unit 170 in response to the detected trigger signal. The radio unit 170 modulates a current time value according to a specified standard through the antenna unit 185, receives a radio frequency signal including the radio frequency signal, and demodulates the received radio frequency signal to generate a digital signal The time value check unit 125 reads the digital signal corresponding to the radio frequency signal received through the antenna unit 185 according to a specified standard and outputs a time value corresponding to the current time .

According to the second time receiving method of the present invention, the control unit 110 exchanges (for example, RST and ATR) the external radio frequency signal source with the designated radio frequency signal through the antenna unit 185, The radio unit 170 modulates the current time value through the antenna unit 185 according to the specified standard and receives the radio frequency signal including the radio frequency signal. The time value confirmation unit 125 reads the digital signal corresponding to the radio frequency signal received through the antenna unit 185 according to the specified standard and outputs the digital signal corresponding to the current time Check the corresponding time value.

Referring to FIG. 1, the control unit 110 reads a radio frequency signal received through the antenna unit 185 and uses an identified time value as a dynamic seed of a designated code generation algorithm, And an information display unit 135 for controlling the dynamically generated OTP to be displayed through the display unit 190. The display unit 190 displays the OTP through the display unit 190, And a response transmission unit 140 for controlling the response signal corresponding to the success or failure of OTP generation through the antenna unit 185 to be transmitted.

The OTP generation unit 130 includes a code generation algorithm for dynamically generating an OTP of a specified code scheme, and the code generation algorithm includes an algorithm for dynamically generating an OTP using at least one dynamic seed. The OTP generator 130 checks the time value confirmed by the time value checker 125 and applies the determined time value to the dynamic seed of the code generation algorithm. If the code generation algorithm is an algorithm for dynamically generating an OTP by further using a fixed seed and a seed value corresponding to the fixed seed is stored in the memory unit 180, Unit 125 as a dynamic seed and applies the stored seed value to the code generation algorithm by using the stored seed value as a fixed seed to dynamically generate an OTP of the designated code system.

According to an embodiment of the present invention, the OTP generation unit 130 may generate a dynamic seed in the seed for dynamically generating an OTP through a code generation algorithm using the time value confirmed through the time value determination unit 125, Unit 190 to dynamically generate an OTP of a specified code scheme to be displayed.

Meanwhile, the OTP generator 130 may dynamically generate an OTP of a designated code scheme through a code generation algorithm that uses a time value as a dynamic seed whenever a time value is confirmed through the time value checker 125, In this case, the OTP generation unit 130 may determine the finally generated OTP as an OTP to be displayed through the display unit 190.

The information display unit 135 displays the dynamically generated OTP through the OTP generation unit 130 through the display unit 190 activated based on the power applied through the antenna unit 185 and the power unit 175 And the display unit 190 displays the OTP according to the control.

The response transmission unit 140 checks whether the OTP is displayed through the display unit 190 in conjunction with the information display unit 135 or the display unit 190. If the OTP is displayed through the display unit 190 A response signal corresponding to the success or failure of generation / display of the OTP is transmitted through the antenna unit 185. Preferably, the response transmitter 140 receives the time value used to generate the displayed OTP through the display unit 190 as a response signal of the radio frequency signal, Can be controlled. Meanwhile, when the OTP is generated through the OTP generation unit 130 using the time value as a dynamic seed even though the OTP is not displayed through the display unit 190, the response transmission unit 140 generates an OTP A response signal corresponding to the success of generation of the OTP can be sent out as a response signal of the radio frequency signal that received the used time value, and thus the present invention is not limited thereto.

According to an embodiment of the present invention, the chip module 105 determines whether the display unit 190 is active or not before generating the OTP, and then determines whether or not the OTP is generated based on the detection Can be dynamically generated.

1, according to an embodiment of the present invention, when a reference value corresponding to an operation power source capable of activating the display unit 190 is set, the controller 110 controls the antenna unit 185) and a power supply unit (175), compares the detected power amount with the set reference value, and determines whether the display unit (190) is active through the applied power source And a display module 190 for performing a process of dynamically generating an OTP when the display module 190 is activated through the applied power and / The operation unit 160 may further include an operation control unit 160 for activating the operation of the display unit 190. When the display unit 190 is not activated through the applied power, The display unit 190 to wait until it is active it is possible to disable the operation of the chip module 105. The OTP is dynamically generated at a predetermined period in the case where power more than a power source capable of dynamically generating an OTP is applied through the antenna unit 185 and the power unit 175 according to an embodiment of the present invention, The power source confirmation unit 145 and the operation control unit 160 may be omitted, and thus the present invention is not limited thereto.

The power source verification unit 145 may be configured to determine whether the chip module 105 is powered by the power source unit 175 and the antenna unit 185 when a reference value corresponding to the power source capable of activating the display unit 190 is set in the chip module 105 The control unit 150 detects the power amount based on the power source and compares the set reference value with the detected power amount and supplies the power value to the power source unit 175 or the power source unit 175, (The power source of the minimum power source capable of activating the power source 190) is applied. If power greater than the reference value is applied through the antenna unit 185 and the power unit 175, the power source confirmation unit 145 determines that the display unit 190 is active through the applied power source. On the other hand, if the power applied through the antenna 185 and the power unit 175 is less than the reference value, the power source confirmation unit 145 determines that the display unit 190 can not be activated through the applied power source .

If the power control unit 145 determines that the display unit 190 can be activated through the power supplied through the antenna unit 185 and the power unit 175, A procedure for dynamically generating an OTP by receiving a time value from the outside via a power source applied through the antenna unit 185 and a power supply unit 175 and using the time value as a dynamic seed and / The operation of the chip module 105 may be controlled such that a procedure for displaying the data through the memory module 190 is performed.

If it is determined that the display unit 190 can not be activated through the power supplied through the antenna unit 185 and the power unit 175 as a result of the power source confirmation unit 145, Even if the power supplied through the antenna unit 185 and the power supply unit 175 is a power supply capable of dynamically generating an OTP, control is performed so that a procedure for dynamically generating an OTP is not performed until the display unit 190 becomes active. And / or control the display unit 190 so that the procedure of displaying the OTP is not performed.

1 according to an embodiment of the second active / inactive determination of the present invention, the controller 110 controls the operation of the display unit 190 through the power supplied through the antenna unit 185 and the power unit 175, And an activity detection unit 150 for detecting whether the OTP is activated to display the OTP. When the display unit 190 is activated, the OTP is dynamically generated and / or displayed through the display unit 190 The operation unit 160 may further include an operation control unit 160 that activates the operation of the chip module 105 so that the display unit 190 May be deactivated to wait until the chip module 105 is activated. The OTP is dynamically generated at a predetermined period in the case where power more than a power source capable of dynamically generating an OTP is applied through the antenna unit 185 and the power unit 175 according to an embodiment of the present invention, The activity detection unit 150 and the operation control unit 160 may be omitted, and thus the present invention is not limited thereto.

The power source confirmation unit 145 applies power to the display unit 190 through the antenna unit 185 and the power unit 175 and then outputs the power to the display unit 190, Section 190 detects whether the OTP is displayably activated.

According to the embodiment of the present invention, when the reference value corresponding to the power source capable of activating the display unit 190 is not set in the chip module 105, ) Detects that the OTP is displayably activated. However, the present invention is not limited thereto, and even if the reference value is set, the power supplied through the antenna unit 185 and the power supply unit 175 reaches a certain range of the reference value or exceeds the reference value It is possible to detect whether the display unit 190 is actually activated to display the OTP through the power source applied with the reference value or more.

If the activity detection unit 150 detects that the display unit 190 is activated, the operation control unit 160 controls the operation of the antenna unit 185 and the power unit 175, The operation of the chip module 105 is performed such that a procedure of dynamically generating an OTP by receiving a time value from the outside and using it as a dynamic seed, and / or a procedure of displaying the dynamically generated OTP through the display unit 190, Can be controlled.

Meanwhile, if the activity detector 150 detects that the display unit 190 is not activated, the operation controller 160 controls the operation of the antenna unit 185 and the power unit 175, A process of dynamically generating an OTP is not performed until the display unit 190 is activated, and / or a procedure of displaying the OTP through the display unit 190 is performed Can be controlled so as not to be performed.

1 according to an embodiment of the third active / inactive determination of the present invention, the controller 110 controls the contactless card 100 in a state in which the contactless card 100 as closely as possible to a radio terminal corresponding to a radio frequency signal source and / And a status confirming unit 155 for confirming whether the display unit 190 on one side of the contactless card 100 is exposed or not. 190 may be further provided with an operation control unit 160 for activating the operation of the chip module 105 so that a procedure for dynamically generating the OTP and / or a procedure for displaying through the display unit 190 is performed The operation control unit 160 controls the operation of the contactless card 100 and the wireless terminal in a state in which the contactless card 100 and the wireless terminal are as close as possible to each other To wait until the displacer unit 190, the exposure condition can disable operation of the chip module 105. The control unit 110 may control the state of the contactless card 100 and the wireless terminal as closely as possible and / or in a state in which the contactless card 100 and the display unit 190 are in close contact with each other in response to the radio frequency signal received through the radio unit 170. [ And a response transmission unit 140 for controlling the response signal including the response code corresponding to the exposed state to be sent out. If the OTP is generated and displayed through the display unit 190 even when the contactless card 100 and the wireless terminal are not in close contact with each other according to an embodiment of the present invention, (160) may be omitted, and thus the present invention is not limited thereto.

The state checking unit 155 can check whether the wireless terminal corresponding to the radio frequency signal source and the contactless card 100 are in close contact with the sensor unit 195 provided in the contactless card 100 have. For example, when the sensor unit 195 includes an optical sensor and the optical sensor is provided on one side of the contactless card 100 in the portion where the antenna unit 185 is embedded on the contactless card 100, The optical signal is not sensed by the optical sensor or an optical signal of less than a specified reference value is sensed in a state where the antenna embedded portion of the contactless card 100 and the wireless terminal are in close contact with each other. When an optical signal sensed through the optical sensor is read while a radio frequency signal is received through the antenna unit 185 and an optical signal of a predetermined reference value or more is sensed through the optical sensor, If the optical signal is not sensed through the optical sensor, or if the optical signal below the reference value is sensed, It can be confirmed that the contact type card 100 and the wireless terminal are in close contact with each other as much as possible.

Alternatively, the state checking unit 155 can be operated in a state in which the wireless terminal corresponding to the radio frequency signal source and the contactless card 100 are in close contact with the sensor unit 195 provided in the contactless card 100 It is possible to confirm whether the display unit 190 is exposed. For example, the sensor unit 195 includes two optical sensors, and the first optical sensor is provided on one side of the contactless card 100 at a portion where the antenna unit 185 is embedded on the contactless card 100 When the second optical sensor is provided near the display unit 190 on one surface of the contactless card 100, the first optical sensor is connected to the antenna of the contactless card 100, The optical signal is not sensed or an optical signal of less than a specified reference value is sensed. On the other hand, when the display unit 190 is exposed, a valid optical signal is sensed by the second optical sensor. When an optical signal that is sensed through the first optical sensor is read while a radio frequency signal is being received through the antenna unit 185 and an optical signal over a reference value is sensed through the first optical sensor, When the optical signal is not sensed through the first optical sensor or an optical signal of less than a reference value is sensed through the first optical sensor, the contactless card 100 and the wireless terminal When the optical signal sensed by the second optical sensor is read and the optical signal of the reference value or more is sensed through the second optical sensor, the display unit 190 is exposed And if the optical signal is not sensed through the second optical sensor or an optical signal below the reference value is sensed, it can be confirmed that the display unit 190 is not exposed.

If the state checking unit 155 determines that the contactless card 100 and the wireless terminal are in close contact with each other and / or the display unit 190 is exposed, the operation control unit 160 A procedure for dynamically generating an OTP by receiving a time value from the outside via a power source applied through the antenna unit 185 and a power supply unit 175 and using the time value as a dynamic seed and / The operation of the chip module 105 may be controlled such that a procedure for displaying the data through the memory module 190 is performed.

If it is determined that the contactless card 100 and the wireless terminal are not in close contact with each other or the display unit 190 is not exposed, the operation control unit 160 Controls whether or not the procedure for dynamically generating the OTP is performed until the display unit 190 is activated even if the power applied through the antenna unit 185 and the power supply unit 175 is a power supply capable of dynamically generating the OTP And / or control the display unit 190 so that the procedure for displaying the OTP is not performed.

According to the embodiment of the present invention, before and after checking whether the status confirming unit 155 is in a state in which the contactless card 100 and the wireless terminal are in close contact with each other and / or the display unit 190 is exposed, At a certain point in time, when a radio frequency signal is received through the antenna unit 185 and a response signal to the radio frequency signal is received, the response transmission unit 140 transmits the radio frequency signal to the contactless card 100 through the antenna unit 185 It is possible to control so that a response signal including a response code corresponding to a state in which the wireless terminal is as close as possible and / or an exposed state of the display unit 190 is transmitted.

According to the embodiment of the present invention, the time value verifying unit 125 may determine whether the power source capable of activating the display unit 190 through the power source verifying unit 145 according to the first and second active / And / or that the display unit 190 is detected as being activated through the activity detection unit 150, and / or that the contactless card 100 is detected through the status detection unit 155. [ (And / or the display unit 190 is exposed) and / or the operation state of the chip module 105 through the operation control unit 160 is The radio frequency signal received through the antenna unit 185 is read based on the power applied through the antenna unit 185 and the power supply unit 175 and is transmitted to the dynamic seed of the OTP Time to be used You can see the value.

According to the embodiment of the present invention, the OTP generation unit 130 may generate power by activating the display unit 190 through the power source verification unit 145 according to the first and second activation / And / or that the display unit 190 is detected as being activated through the activity detection unit 150, and / or that the contactless card 100 and / (Or the display unit 190 is exposed), and / or the operation status of the chip module 105 via the operation control unit 160 is OTP The control unit 120 transmits the control signal to the display unit 190 through a code generation algorithm using the time value confirmed by the time value confirmation unit 125 as a dynamic seed in the seed for dynamically generating the OTP You can dynamically generate an OTP for the specified code scheme to display.

FIGS. 2A and 2B are views illustrating a contactless interface method between the contactless card 100 and a radio frequency signal source according to an embodiment of the present invention.

2a and 2b illustrate that the contactless card 100 exchanges radio frequency signals with a user's wireless terminal corresponding to a radio frequency signal source and transmits the radio frequency signal from the radio frequency signal source of the wireless terminal to the non- Contact card 100 so that the OTP displayed through the display unit 190 is visibly recognizable by a user while receiving a signal of an electromagnetic energy field to activate the display unit 190 provided on one surface, Contactless card 100 of the contactless card 100 may be constructed by referring to and / or modifying FIG. 2 by a person skilled in the art, It will be appreciated that various implementations of the interface scheme may be deduced, Is made, including a method, to which the technical feature that is not limited to the exemplary method shown in the figure 2. For convenience, FIGS. 2a and 2b illustrate that the sensor unit 195 is provided in the contactless card 100, but the present invention is not limited thereto, and the sensor unit 195 may be omitted.

The contactless card 100 according to the present invention is characterized in that an embedded layer is formed between an upper plate portion and an upper plate portion of an insulating material The antenna module 185 of the embedded layer and the chip module 105 are electrically connected to each other and the chip module 105 of the embedded layer And the display portion 190 of the upper surface of the upper plate are also electrically connected. According to an embodiment of the present invention, the contactless card 100 may include an upper plate having the display unit 190, an embedding layer in which the antenna unit 185 and the chip module 105 are embedded, Thermal compression).

According to an embodiment of the present invention, a printed layer having various patterns or information printed thereon is formed on a surface of an upper plate of the contactless card 100, and the upper plate (or the printed layer A transparent coating layer may be formed. The print layer may be formed on the outer surface of the lower plate, and a transparent coating layer may be formed on the lower plate to protect the lower plate (or the print layer).

The contactless card 100 according to the embodiment of FIG. 2a includes a display unit 190 that displays an OTP of a code system specified in a designated area (for example, a right upper end area) of a top surface of a top plate, A first sensor unit 195 for sensing the contact state between the contactless card 100 and the wireless terminal is provided in an area where the antenna unit 185 is embedded in the middle embedded layer, And a second sensor unit 195 for sensing whether the display unit 190 is exposed in a state where the contactless card 100 is in close contact with the wireless terminal.

According to the embodiment of FIG. 2a, the contactless card 100 is connected to the radio frequency signal of the wireless terminal in the form of being in close contact with the rear surface (for example, the surface opposite to the front surface provided with the touch screen of the wireless terminal) Interfaces with the source.

2A, when the contactless card 100 is brought into close contact with the rear surface of the wireless terminal, the chip module 105 of the contactless card 100 contacts the contactless card 100 through the first sensor unit 195, The display unit 190 checks the contact state between the card 100 and the wireless terminal while the contactless card 100 and the wireless terminal are in close contact with each other through the second sensor unit 195, It is possible to confirm that it is exposed.

2, the contactless card 100 is in close contact with the rear surface of the wireless terminal only at a portion of the top surface of the top plate. In this case, the antenna 185, which is embedded in the embedded layer, It is preferable to be embedded in the contact portion. However, the present invention is not limited thereto.

The contactless card 100 according to the embodiment of FIG. 2b includes a sensor unit (not shown) for sensing the contact state between the contactless card 100 and the wireless terminal in an area where the antenna unit 185 is embedded in the embedded layer of the lower plate, 195 may be provided.

According to the embodiment of FIG. 2B, the contactless card 100 interfaces with a radio frequency signal source of the wireless terminal in such a manner that it closely adheres to a front surface of the wireless terminal (for example, a surface provided with a touch screen of the wireless terminal) .

2B, the chip module 105 of the contactless card 100 is connected to the contactless card 100 through the sensor unit 195. In this case, 100 and the wireless terminal are confirmed and the display unit 190 provided on the surface of the upper plate is always exposed so that it is not necessary to check the exposed state of the display unit 190 separately.

According to the extended method of the present invention, the sensor unit 195 may be provided in combination with the above-described FIG. 2a and FIG. 2b, and thus the present invention is not limited thereto.

FIG. 3 is a diagram illustrating a process of recording a unique code and a seed value in the contactless card 100 according to an embodiment of the present invention.

3 is a flow chart illustrating a process of generating a unique code of the contactless card 100 and an OTP generation process in the storage area designated in the memory unit 180 of the contactless card 100 in the process of manufacturing the contactless card 100 or the first issuance process of the contactless card 100 A seed value to be used as a fixed seed of the seed value is stored. Referring to FIG. 3 and / or modified by the person skilled in the art, It is to be understood that the invention may be practiced otherwise than as specifically described herein, but it is to be understood that the invention may be practiced otherwise than as specifically described herein, The technical features are not limited by the method alone.

3, the chip module 105 of the contactless card 100 receives a unique code of the contactless card 100 via the interface unit 165 and a seed value to be used as a fixed seed for OTP generation ( 300). The inherent code and the seed value can be received via the contactless interface, or via the contact interface used by the manufacturer or issuing device of the contactless card 100.

The chip module 105 of the contactless card 100 checks whether a valid unique code and a seed value are stored in a designated storage area of the memory unit 180 (305). If the valid unique code and seed value are already recorded in the designated storage area, the chip module 105 of the contactless card 100 discards the received unique code and the seed value (310) 165) in response to the error code (315). That is, the unique code and the seed value can be recorded only once in the designated storage area, and addition, modification, update, and the like are impossible.

If the unique code and the seed value are not recorded in the designated storage area, the chip module 105 of the contactless card 100 stores the received unique code and the seed value in the designated storage area (320) , And responds the result of storing the inherent code and the seed value through the interface unit (325).

4 is a diagram illustrating a process of setting a reference value for activating the display unit 190 on the contactless card 100 according to an embodiment of the present invention.

4 is a flowchart illustrating a process of issuing a primary issuance of the contactless card 100 or a secondary issuing process for using the contactless card 100 (for example, a process of recording personalized information in the contactless card 100) A process of setting a reference value for a power source for determining activation of the display unit 190 in a storage area designated in the memory unit 180 of the contactless card 100, It will be appreciated that various implementations of the reference value setting process (e.g., omitting some of the steps or changing the order) may be referred to and / or modified with reference to FIG. 4, The present invention includes all of the above-described embodiments, and the technical features of the present invention are not limited only by the method shown in FIG. 4 illustrates an embodiment for storing a reference value in a designated storage area of the memory unit 180 provided in the chip module 105 of the contactless card 100. However, the present invention is not limited thereto , The reference value can be set in the form of a conditional statement on the control circuit or the program code.

4, the chip module 105 of the contactless card 100 receives a reference value for a power source for activating the display unit 190 of the contactless card 100 through the interface unit 165 (400). In the embodiment of FIG. 4, the reference value is a reference proximity distance (for example, the [card] is referred to as a wireless proximity distance) based on the radio frequency signal strength corresponding to the radio frequency signal source of the wireless terminal possessed (For example, 1.2 seconds or the like) in a state in which the display unit 190 is in close contact with the terminal) through the antenna unit 185 and the power supply unit 175 . That is, not only are the positions of the radio frequency signal sources for transmitting the radio frequency signals on the wireless terminals for each model (or each wireless terminal) possessed (or possessed) by the user are different from each other, The intensity of the radio frequency signal (= intensity of the electromagnetic energy field) may be different from each other. In this case, the reference value is preferably set to a value optimized to a radio frequency signal strength corresponding to a radio frequency signal source of a wireless terminal owned or owned by the user.

The chip module 105 of the contactless card 100 checks whether a reference value is stored in a designated storage area of the memory unit 180 (405). If the reference value is stored in the designated storage area, the chip module 105 of the contactless card 100 updates the reference value stored in the designated storage area to the received reference value 410, Value to a value optimized for the radio frequency signal source of the wireless terminal that the user owns (or owns), and responds to the result of updating the reference value through the interface unit 165 (420).

On the other hand, if the reference value is not stored in the designated storage area, the chip module 105 of the contactless card 100 stores the reference value in the designated storage area (step 415) Stores a reference value optimized for a radio frequency signal source of the wireless terminal, and responds to the result of storing the reference value through the interface unit (420).

5 is a diagram illustrating a process of determining activation of the display unit 190 of the contactless card 100 according to an embodiment of the present invention.

5 illustrates a process of confirming whether a power source capable of activating the display unit 190 of the contactless card 100 is generated and applied using a reference value set through the process shown in FIG. 4. Referring to FIG. 5, Those skilled in the art will appreciate that various modifications and variations of the method of determining an activation of the display 190 (e.g., some steps may be omitted, However, the present invention includes all of the above-described embodiments, and the technical features of the present invention are not limited by the method shown in FIG.

Referring to FIG. 5, the chip module 105 of the contactless card 100 receives the signal of the electromagnetic wave energy applied to the antenna unit 185, 500), and performs an initialization procedure for the internal operation based on the minimum operation power (505). Those skilled in the art will appreciate that the initialization procedure for the internal operation based on the noncontact IC card-related standard is known, and thus a detailed description thereof will be omitted. As the initialization procedure is completed according to the method, the chip module 105 of the contactless card 100 may perform at least one of the processes shown in FIGS. 6 to 8.

Upon completion of the internal initialization procedure, the chip module 105 of the contactless card 100 checks the power generated and generated through the power supply unit 175 based on the signal of the electromagnetic wave energy field applied to the antenna unit 185 The control unit 510 determines whether the display unit 190 of the contactless card 100 can be activated by reading the applied power through the reference value set through the process shown in FIG.

If the activation of the display unit 190 is not possible through the applied power source, the chip module 105 of the contactless card 100 can activate the display unit 190 through the applied power source In response to a radio frequency signal received through the antenna unit 185, and / or deactivates the operation of dynamically generating an OTP and maintains a standby state (520).

If it is possible to activate the display unit 190 through the applied power source, the chip module 105 of the contactless card 100 may perform at least one of the processes shown in FIGS. 6 to 8 .

6 is a diagram illustrating a process of detecting activation of the display unit 190 of the contactless card 100 according to an embodiment of the present invention.

6 is a flowchart illustrating an operation of applying a power generated by the power unit 175 to the display unit 190 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185 through the process shown in FIG. If the display unit 190 is activated, it is possible to detect whether or not the display unit 190 is activated. Referring to FIG. 6 and / or modified by the person skilled in the art, It will be understood that various implementations of the present invention (e.g., some steps omitted or alternatives in which the order is changed) may be deduced, but the present invention includes all of the above- The technical features are not limited by the method alone.

Referring to FIG. 6, the chip module 105 of the contactless card 100 is generated through a power unit 175 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185 through the process shown in FIG. 5 (600), and then, the applied power is applied to the display unit 190 to detect whether the display unit 190 is activated (605) so that the OTP can be displayed.

If the activation of the display unit 190 is not detected through the applied power source, the chip module 105 of the contactless card 100 transmits the power to the display unit 190 until the display unit 190 is activated (610) reacts to radio frequency signals received via the antenna unit 185, and / or deactivates the operation of dynamically generating an OTP and maintains a standby state.

If activation of the display unit 190 is detected through the applied power source, the chip module 105 of the contactless card 100 performs at least one of the processes shown in FIG. 5, FIG. 7, or FIG. 8 can do.

7 is a view illustrating a process of confirming the close contact state of the contactless card 100 and the exposed state of the display unit 190 according to an embodiment of the present invention.

7 is a block diagram illustrating a configuration of a power supply unit 175 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185 through the process shown in FIG. 5 when the sensor unit 195 is provided in the contactless card 100. FIG. (Not shown) to the wireless terminal corresponding to the radio frequency signal source and the contact state between the contactless card 100 and the display unit The contact state of the contactless card 100 and the display state of the contactless card 100 may be changed according to the present invention. It will be appreciated that various embodiments of the exposure status checking process 190 (e.g., omitting some steps or changing the order) may be inferred, All the methods of implementation are included, and the technical characteristics thereof are not limited only by the method shown in FIG.

Referring to FIG. 7, the chip module 105 of the contactless card 100 is generated through a power unit 175 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185 through the process shown in FIG. 5 (700) using the power supplied from the sensor unit 195 to read the sensed signal through the sensor unit 195 and transmit the sensed signal to the contactless card 100 and the radio frequency signal source And confirms the close contact state between the corresponding wireless terminals (705).

If the contactless card 100 and the wireless terminal are not in close contact with each other, the chip module 105 of the contactless card 100 transmits a response signal transmitted in response to the radio frequency signal received through the antenna unit 185, (710), and an operation of dynamically generating the OTP until the activation of the display unit 190 is determined / detected through the applied power is deactivated The standby state is maintained (715).

Meanwhile, if the close contact state between the contactless card 100 and the wireless terminal is confirmed, the chip module 105 of the contactless card 100 performs at least one of the processes shown in FIG. 5, FIG. 6, or FIG. 8 .

The chip module 105 of the contactless card 100 reads a signal sensed by the sensor unit 195 and displays the contactless card 100 in a state in which the contactless card 100 and the wireless terminal are in close contact with each other, It is determined whether the unit 190 is exposed (720).

If the display unit 190 of the contactless card 100 is not exposed, the chip module 105 of the contactless card 100 transmits the radio frequency signal received through the antenna unit 185 (725) an error code corresponding to the exposed state of the display unit 190 is transmitted through the response signal to the display unit 190, (715). ≪ / RTI >

When the exposed state of the contactless card 100 is confirmed with respect to the display unit 190, the chip module 105 of the contactless card 100 receives at least one of the processes shown in FIG. 5, FIG. 6, Process can be performed.

FIG. 8 is a diagram illustrating a process of dynamically generating an OTP in the contactless card 100 according to an embodiment of the present invention and displaying the generated OTP through the display unit 190.

FIG. 8 is a flowchart illustrating a method of dynamically generating an OTP using a power generated by a power supply unit 175 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185, The OTP generation and display process of the present invention will be described with reference to FIG. 8 and the modification of the OTP generation and display process according to an embodiment of the present invention. It will be appreciated that the present invention can be practiced with various embodiments (e.g., omitting some steps or changing the order) with respect to the present invention, The technical features are not limited by the method alone.

Referring to FIG. 8, the chip module 105 of the contactless card 100 is generated through a power unit 175 based on a signal of an electromagnetic wave energy field applied to the antenna unit 185 through the process shown in FIG. 5 (800) for checking the time value by reading the radio frequency signal received through the antenna unit (185) based on the supplied power, If the time value is not confirmed through the radio frequency signal received through the antenna unit 185, the chip module of the contactless card 100 can be exchanged with the chip module of the contactless card 100. [ The control unit 105 controls to transmit a response signal for receiving a time value through the antenna unit 185 according to a designated procedure 805. The radio frequency The program included in the wireless terminal corresponding to the number signal source confirms the current time by interlocking with the internal timer of the wireless terminal (or reading a signal exchanged with the base station) according to a designated procedure, (105) generates a time value usable as a dynamic seed of OTP generation and transmits the generated current time through the radio frequency signal source in a radio frequency signal, and the radio frequency signal including the time value And is received through the antenna unit 185.

If the radio frequency signal including the time value is received through the antenna unit 185, the chip module 105 of the contactless card 100 reads the radio frequency signal received through the antenna unit 185 And confirms the time value to be used as the dynamic seed of the generation of the OTP (810). According to an embodiment of the present invention, the chip module 105 of the contactless card 100 checks (815) a seed value stored in a designated storage area, applies the time value as a dynamic seed of a designated code generation algorithm, The OTP of the designated code scheme is dynamically generated 820 by applying the fixed seed of the code generation algorithm.

According to the embodiment of the present invention, since the time at which the OTP is generated through the process shown in FIGS. 5 to 7 is the time at which the display unit 190 is activated to display the OTP, The chip module 105 controls the generated OTP to be displayed through the activated display unit (step 825).

When the OTP is displayed through the display unit 190, the chip module 105 of the contactless card 100 controls the OTP generation / display response signal to be transmitted through the antenna unit 185 The program of the wireless terminal corresponding to the radio frequency signal source can recognize that the OTP is dynamically generated through the contactless card 100 and displayed through the display unit 190. [

100: contactless card 105: chip module
110: control unit 115: information storage unit
120: authentication processing unit 125: time value verification unit
130: OTP generation unit 135: Information display unit
140: response transmission unit 145: power source confirmation unit
150: activity detection unit 155: status check unit
160: Operation control unit 165:
170: radio section 175: power section
180: memory unit 185: antenna unit
190: display unit 195: sensor unit

Claims (18)

A contactless card having an antenna unit for transmitting and receiving a radio frequency signal inside a card and a display unit capable of displaying numbers or characters on one side of the card,
An activity detection unit for detecting activation of a display unit provided on one side of the card using a power generated based on a signal of an electromagnetic wave energy field applied from the outside of the card to the antenna unit; And
And an information display unit for controlling the information displayed through the display unit and the activated display unit to be displayed.
The method according to claim 1,
A time value verifying unit for reading a radio frequency signal received through the antenna unit and confirming a time value; And
And an OTP generation unit for dynamically generating an OTP (One Time Password) of a specified code scheme by using the identified time value as a dynamic seed of a designated code generation algorithm,
Wherein the information display unit controls the dynamically generated OTP to be displayed through the activated display unit.
3. The apparatus of claim 2, wherein the time-
Wherein the digital signal generated by demodulating the radio frequency signal received through the antenna unit is read and a usable time value is confirmed using a dynamic seed of a designated code generation algorithm.
3. The apparatus of claim 2, wherein the OTP generator comprises:
Wherein the control unit checks the seed value stored in the designated storage area, and uses the time value as the dynamic seed and dynamically generates the OTP of the designated code system using the stored seed value as the fixed seed.
The method according to claim 1,
Further comprising an information storage unit for storing a seed value to be used as a fixed seed for dynamically generating an OTP of a designated code scheme in a designated storage area.
The method according to claim 1,
Further comprising: an authentication processing unit for reading the radio frequency signal received through the antenna unit to confirm the authentication information and authenticating the validity of the authentication information.
The method according to claim 1,
Further comprising a power checking unit for checking whether a power generated based on a signal of an electromagnetic wave energy field applied to the antenna unit is greater than or equal to a reference value for activating the display unit.
The method according to claim 1,
Further comprising a status checking unit for checking whether the wireless terminal corresponding to the source of the radio frequency signal and the card are in close contact with each other.
The method according to claim 1,
Further comprising a state checking unit for checking whether the display unit is in an exposed state in a state in which the card and the wireless terminal corresponding to the source of the radio frequency signal are in close contact with each other.
A method for controlling a contactless card having an antenna unit for transmitting and receiving radio frequency signals inside a card and a display unit capable of displaying numbers or characters on one side of the card,
A first step of detecting activation of a display unit provided on one side of the card using a power source generated based on a signal of an electromagnetic wave energy field applied from the outside of the card to the antenna unit; And
And a second step of controlling the information displayed through the display unit and the activated display unit to be displayed.
The method according to claim 1,
A first step of reading a radio frequency signal received through the antenna unit and confirming a time value; And
And a second step of dynamically generating an OTP (One Time Password) of a designated code system by using the identified time value as a dynamic seed of a designated code generation algorithm,
Wherein the second step controls the dynamically generated OTP to be displayed through the activated display unit.
12. The method as claimed in claim 11,
And reading a digital signal generated by demodulating a radio frequency signal received through the antenna unit to check a usable time value as a dynamic seed of a designated code generation algorithm.
12. The method as claimed in claim 11,
Wherein the control unit checks the seed value stored in the designated storage area and uses the time value as the dynamic seed and dynamically generates the OTP of the designated code scheme using the stored seed value as the fixed seed. Way.
The method according to claim 1,
Further comprising the step of storing the seed value to be used as a fixed seed for dynamically generating an OTP of a specified code scheme in a designated storage area.
The method according to claim 1,
Further comprising the step of reading the radio frequency signal received through the antenna unit to confirm the authentication information and authenticating the validity of the authentication information.
The method according to claim 1,
Further comprising the step of confirming whether the power generated based on the signal of the electromagnetic wave energy field applied to the antenna unit is equal to or greater than a reference value for activating the display unit.
The method according to claim 1,
Further comprising the step of confirming whether the wireless terminal corresponding to the source of the radio frequency signal and the card are in close contact with each other.
The method according to claim 1,
Further comprising the step of confirming whether the display unit is in an exposed state in a state in which the card and the wireless terminal corresponding to the source of the radio frequency signal are in close contact with each other.

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