KR102353235B1 - Ic card payment device having abnormal operation recognition function using conduction current and its operation method - Google Patents

Abstract

The present invention relates to an IC card payment apparatus having an abnormal operation recognition function using a conduction current, and more particularly, to an IC card payment apparatus having an abnormal operation recognition function using a conduction current for making a payment using an IC chip. it's about The present invention is a substrate unit; an insertion unit provided in the substrate unit to insert an IC card; and a recognition unit formed on the substrate and provided to check the IC information of the IC card inserted into the insertion unit, wherein the recognition unit is provided to check whether the IC card is normally inserted into the insertion unit An IC card payment device having an abnormal operation recognition function using a conduction current is provided.

Description

IC card payment device having abnormal operation recognition function using conduction current and operating method thereof

The present invention relates to an IC card payment apparatus having an abnormal operation recognition function using a conduction current, and more particularly, to an IC card payment apparatus having an abnormal operation recognition function using a conduction current for making a payment using an IC chip. it's about

In Korea, the use of IC cards has been compulsory since July 21, 2015 in order to protect personal information and prevent forgery and illegal transactions of credit cards. have.

However, the IC card transaction approval time using the IC card transaction terminal is 3.5 to 6 seconds after card recognition, which takes a lot of time to approve the transaction compared to a credit card having an approval time of less than 1 second.

For this reason, some merchants are doing abnormal credit card transactions by invalidating the security function of IC card transactions. .

On the other hand, only IC card payment terminals and payment devices that have received EMV (Europay Mastercard Visa) certification internationally can be used after receiving security certification from the KTC (Korea Mechanical and Electrical Testing Laboratory) certification institution designated by the Credit Finance Association.

In other words, IC card payment terminals that have not received EMV certification, the international standard for IC card transactions, cannot receive domestic security certification.

The EMV international standard stipulates that transactions can be made with MS credit cards in consideration of the unavoidable circumstances of failure while transacting with IC cards. Specifically, the EMV standard allows a fallback function when an attempt is made to transact with an IC card but fails. Only when the fallback function does not work when the IC card is inserted into the payment terminal, payment with the MS credit card is restricted. allow

At this time, the IC card takes additional time to encrypt and decrypt key information using an encryption algorithm (RAS 1024/2048 bits) to prevent hacking at every transaction, making it impossible to hack, forge, or falsify.

However, MS Card transactions do not use the RSA encryption algorithm, so the transaction processing time is fast, but there is a problem in the security of card counterfeiting and tampering.

Some merchants have a lot of waiting for payment, so for quick payment processing, insert and remove the IC card from the SCR (Smart Card Reader) device or turn it over in the opposite direction of the IC chip. It is put in MSR (Magnetic Card Reader) to process payment with EMV's Fall Back function.

In conclusion, even if the above method is followed, it is faster than the IC card transaction approval time, so the use of negative methods by some affiliated stores is expanding, thereby exposing the risk of illegal counterfeiting and falsification of MS cards.

Accordingly, there is a need for a technology capable of preventing the problem of intentionally avoiding payment using an IC chip in order to speed up the approval speed.

Korean Patent Publication No. 10-2018-0131249

An object of the present invention to solve the above problems is to provide an IC card payment device having an abnormal operation recognition function using a conduction current for making a payment using an IC chip.

The technical problems to be achieved by the present invention are not limited to the technical problems mentioned above, and other technical problems not mentioned can be clearly understood by those of ordinary skill in the art to which the present invention belongs from the description below. There will be.

The configuration of the present invention for achieving the above object is a substrate portion; an insertion unit provided in the substrate unit to insert an IC card; and a recognition unit formed on the substrate and provided to check the IC information of the IC card inserted into the insertion unit, wherein the recognition unit is provided to check whether the IC card is normally inserted into the insertion unit An IC card payment device having an abnormal operation recognition function using a conduction current is provided.

In an embodiment of the present invention, the IC card may include the IC chip and the magnetic, and the IC chip may be provided with a plurality of elements.

In an embodiment of the present invention, the recognition unit may include: a plurality of first ground pins provided to contact each element of the IC chip provided on the IC card in a one-to-one correspondence; and a plurality of first power pins provided to contact each device of the IC chip in a one-to-one correspondence, wherein the first ground pin and the first power pin provided to contact each device are spaced apart from each other. can

In an embodiment of the present invention, the first ground pin and the first power pin provided to be in contact with each element as a pair may be provided to allow current to flow only when in contact with the element.

In an embodiment of the present invention, the substrate unit may be configured to determine that the IC card is normally inserted only when a current passes between the first ground pin and the first power pin.

In an embodiment of the present invention, the recognition unit includes: a second ground pin provided to contact the central portion of the IC chip provided on the IC card; and a plurality of second power pins provided to contact each device of the IC chip in a one-to-one correspondence, wherein the second power pin provided to contact each device and the second ground pin are formed to be spaced apart from each other can do.

In an embodiment of the present invention, the second power pin and the first ground pin provided to be in contact with each element may be characterized in that they are provided to allow current to flow only when in contact with the IC chip.

In an embodiment of the present invention, the substrate unit may be configured to determine that the IC card is normally inserted only when a current passes between the second ground pin and the second power pin.

In an embodiment of the present invention, the recognition unit may be characterized in that a contact point with the IC chip is formed of a plating or a conductor.

According to an aspect of the present invention, there is provided a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current, the method comprising: a) checking whether an IC card is normally inserted; b) checking ATR (Answer to Reset) if the IC card is normally inserted as a result of the check; c) when the ATR signal is received, confirming the IC information and approving the payment; Provided is a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current, characterized in that it is determined to be determined to be.

In an embodiment of the present invention, the step a) comprises: a1) inserting the IC card; a2) checking whether the inserted IC card is normally inserted; a3) when an error occurs in the insertion of the IC card, checking the number of times an error occurs; a4) requesting reinsertion of the IC card if the number of errors is less than or equal to a preset number of inspections; and a5) operating the magnetic payment mode if the number of times of error occurrence exceeds a preset number of inspections.

According to the effect of the present invention according to the above configuration, it is possible to prevent magnetic payment, which is weak in security, from making a magnetic payment for quick payment and to induce payment using an IC chip having excellent security stability.

It should be understood that the effects of the present invention are not limited to the above-described effects, and include all effects that can be inferred from the configuration of the invention described in the detailed description or claims of the present invention.

1 is an exemplary view showing an IC card according to an embodiment of the present invention.
2 is a photograph of an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.
3 is a cross-sectional view of an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.
4 is an exemplary diagram illustrating a method of checking whether an IC card is inserted in an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.
5 and 6 are exemplary views showing the contact structure of the IC chip according to the first embodiment of the present invention.
7 is an exemplary diagram illustrating a contact structure for an IC chip according to a second embodiment of the present invention.
8 is a flowchart of a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.
9 is a flowchart illustrating a step of checking whether an IC card is normally inserted in a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.
10 is an algorithm of a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.
11 is a flowchart of a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.
12 is a flowchart illustrating a step of checking whether an IC card is normally inserted in a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.
13 is a flowchart illustrating steps of confirming IC information and approving payment in a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.
14 is a flowchart of operating a magnetic payment mode of a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.
15 is a flowchart of a magnetic payment mode of a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.

Hereinafter, the present invention will be described with reference to the accompanying drawings. However, the present invention may be embodied in several different forms, and thus is not limited to the embodiments described herein. And in order to clearly explain the present invention in the drawings, parts irrelevant to the description are omitted, and similar reference numerals are attached to similar parts throughout the specification.

Throughout the specification, when a part is said to be “connected (connected, contacted, coupled)” with another part, it is not only “directly connected” but also “indirectly connected” with another member interposed therebetween. "Including cases where In addition, when a part "includes" a certain component, this means that other components may be further provided without excluding other components unless otherwise stated.

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

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

1 is an exemplary view showing an IC card according to an embodiment of the present invention.

As shown in FIG. 1 , the IC card 10 includes an IC chip 20 and a magnetic 30 .

The IC chip 20 is an integrated circuit of a semiconductor substrate, and includes a VCC (21), a Reset (22), a Clock (23), a first NC (24), a GND (25), a VPP (26), and an I/O (27). ) and a plurality of elements such as the second NC 28 .

Here, VCC (21) is a power supply microprocessor, Reset (22) is a reset signal, clock (23) is a clock signal, GND (25) is ground, VPP (26) is a program voltage, I/O (27) stands for data input/output.

The magnetic 30 is made of a magnetic tape, and data is recorded on the magnetic tape.

2 is a photograph of an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention, and FIG. 3 is a photograph of an abnormal operation recognition function using a conduction current according to an embodiment of the present invention. It is a cross-sectional view of an IC card payment apparatus.

As shown in FIGS. 2 and 3 , the IC card payment apparatus 100 having an abnormal operation recognition function using a conduction current includes a substrate unit 110 , an insertion unit 120 , and a recognition unit 130 .

The substrate part 110 forms a circuit board.

The insertion unit 120 may be provided in the substrate unit 110 to insert the IC card 10 .

The recognition unit 130 may be formed on the substrate unit 110 and may be provided to check the IC information of the IC card 10 inserted into the insertion unit 120 .

Also, the recognition unit 130 may be provided to check whether the IC card 10 is normally inserted into the insertion unit 120 .

4 is an exemplary diagram illustrating a method of checking whether an IC card is inserted in an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.

Specifically, the recognition unit 130 includes a pair of ground pins 131 and a power supply pin 132 that are provided to be in contact with each element and are spaced apart from each other, and the ground pin 131 and the power pin 132 are provided. ) may be provided so that current flows only in a state in contact with the element.

The substrate unit 110 may determine that the IC card 10 is normally inserted only when a current flows through the recognition unit 130 as described above.

5 and 6 are exemplary views showing the contact structure of the IC chip according to the first embodiment of the present invention.

5 and 6 , according to the first embodiment of the present invention, the recognition unit 130 includes a first ground pin 131 and a first power pin 132 .

The first ground pin 131 may be provided in plurality so as to contact each element of the IC chip 20 provided in the IC card 10 in a one-to-one correspondence. The first ground pin 131 is provided to perform a ground function.

The first power pin 132 is provided to contact each element of the IC chip 20 in a one-to-one correspondence, and may be provided in plurality.

In addition, the first ground pin 131 and the first power pin 132 provided to be in contact with each element are spaced apart from each other so that current does not flow when the IC chip 20 is not in contact with each other. .

That is, the first ground pin 131 and the first power pin 132 provided to be in contact with each element as a pair may be provided to allow current to flow only when in contact with the element of the IC chip 20 . .

The substrate unit 110 may be provided to determine that the IC card 10 is normally inserted only when a current passes between the first ground pin 131 and the first power pin 132 .

The present invention thus prepared does not need to be provided with a separate power switch. Specifically, if current flows through each power pin while the card is being inserted, the IC chip may fail.

Therefore, in the prior art, when the IC card is fully inserted, the switch is pressed and the current flows at that time.

However, according to the present invention, since the first power pin 132 and the first ground pin 131 are provided for each of these devices and are short-circuited with each other, no current flows normally and the IC card 10 is inserted. The current can flow only when the IC chip 20 is in contact. That is, according to the present invention, a separate power switch may not be required.

In addition, according to the present invention, even when the IC card 10 is not inserted in the power switch, current flows continuously, so that the IC chip 20 does not malfunction due to a malfunction.

And, according to the present invention, after confirming that the IC card 10 is normally inserted, the recognition unit 130 may flow a current again to obtain IC information so that payment can be made.

7 is an exemplary view showing a contact structure for the IC chip 20 according to the second embodiment of the present invention.

7 , according to the second embodiment of the present invention, the recognition unit 130 includes a second ground pin 231 and a second power pin 232 .

The second ground pin 231 may be provided as one so as to contact the central portion of the IC chip 20 provided in the IC card 10 . The second ground pin 231 is provided to perform a ground function.

The second power pin 232 is provided to contact each element of the IC chip 20 in a one-to-one correspondence, and may be provided in plurality.

In addition, the second ground pin 231 and the second power pin 232 provided to be in contact with each element are spaced apart from each other so that current does not flow when the IC chip 20 is not in contact with each other. .

That is, the second power pin 232 and the second ground pin 231 provided to be in contact with each element may be provided to allow current to flow only when in contact with the element of the IC chip 20 .

The substrate unit 110 may be provided to determine that the IC card 10 is normally inserted only when a current passes between the second ground pin 231 and the second power pin 232 .

The present invention thus prepared does not need to be provided with a separate power switch. Specifically, if current flows through each power pin while the card is being inserted, the IC chip may fail.

Therefore, in the prior art, when the IC card is fully inserted, the switch is pressed and the current flows at that time.

However, according to the present invention, since the second power pin 232 and the second ground pin 231 are provided for each of these devices and are short-circuited with each other, no current flows normally and the IC card 10 is inserted. The current can flow only when the IC chip 20 is in contact. That is, according to the present invention, a separate power switch may not be required.

In addition, according to the present invention, even when the IC card 10 is not inserted in the power switch, current flows continuously, so that the IC chip 20 does not malfunction due to a malfunction.

And, according to the present invention, after confirming that the IC card 10 is normally inserted, the recognition unit 130 may flow a current again to obtain IC information so that payment can be made.

In the recognition unit 130 , a contact with the IC chip 20 may be formed of a plating or a conductor to allow current to pass therethrough.

8 is a flowchart of a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.

Referring to FIG. 8 , a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current is first provided in an IC card 10 and a plurality of devices provided to contact each element of the IC chip 20 in a one-to-one correspondence. The recognition unit 130 including the first ground pin 131 and the plurality of first power pins 132 provided to be in one-to-one contact with each element of the IC chip 20 is inserted into the insertion unit 120 . It is checked whether the IC card is normally inserted, but the first ground pin 131 and the first power pin 132 are formed to be spaced apart from each other, so that current flows only when in contact with a plurality of elements provided in the IC chip 20 . The recognition unit 130 recognizes that the IC card 10 is normally inserted, or Alternatively, by recognizing that the IC card 10 is inserted abnormally, a step (S110) of intentionally inducing a recognition error may be performed.

The step of checking whether the IC card is normally inserted ( S110 ) is a step of checking whether the IC card is normally inserted into the insertion unit 120 , and whether the IC card is normally inserted may be checked by the recognition unit 130 .

Here, the recognition unit 130 may be provided not only to check whether the IC card is inserted into the insertion unit 120 , but to recognize whether the IC card is inserted in the wrong direction or for too short a time.

9 is a flowchart illustrating a step of checking whether an IC card is normally inserted in a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to an embodiment of the present invention.

Referring to FIG. 9 , in the step of checking whether the IC card is normally inserted ( S110 ), the step of inserting the IC card may be performed first.

In the step of inserting the IC card, the IC card 10 may be inserted into the insertion unit 120 .

After the step of inserting the IC card, a step of checking whether the inserted IC card is normally inserted may be performed.

The step of checking whether the inserted IC card is normally inserted may be provided to determine that the IC card 10 is normally inserted when a conduction current is sensed in the IC chip 20 of the IC card 10 .

After the step of checking whether the inserted IC card is normally inserted, if an error occurs in the insertion of the IC card, a step of checking the number of times of occurrence of the error may be performed.

When an error occurs in the insertion of the IC card, in the step of checking the number of occurrences of the error, if the conduction current is not detected in the IC chip 20 of the inserted IC card 10, an error in the insertion of the IC card is notified, You can check the number of occurrences.

In this case, the number of times of occurrence of errors may mean the number of times of occurrence of errors within a predetermined time period or the number of times of occurrence of errors continuously.

After the step (S113) of checking the number of errors in the insertion of the IC card, if the number of errors is less than or equal to the preset number of inspections (N), step b) is performed to check the ATR, and the number of occurrences of errors is If the preset number of inspections (N) is exceeded, a step of requesting reinsertion of the IC card may be performed.

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In this case, the function of requesting and processing the reinsertion may be repeatedly performed once or several times, and the number of repetitions and the waiting time may be variably adjusted.

When an error occurs in the insertion of the IC card, after checking the number of errors, if the number of errors exceeds a preset number of tests, a step of requesting reinsertion of the IC card may be performed.

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After the step (S110) of checking whether the IC card is normally inserted, if the IC card is inserted as a result of the check, the step (S120) of checking ATR (Answer to Reset) may be performed.

As a result of the check, if the IC card is normally inserted, in the step S120 of checking ATR (Answer to Reset), the ATR signal of the IC chip may be received using the recognition unit 130 .

That is, if the IC card is normally inserted as a result of the check, in the step S120 of checking ATR (Answer to Reset), power (Vcc and GND) for the operation of the IC card 10 and signals such as Clock and Reset are applied. ATR signal can be received.

As a result of the check, if the IC card is normally inserted, after the step of checking ATR (Answer to Reset) (S120), when the ATR signal is received, the step of confirming the IC information and authorizing the payment (S130) may be performed.

When the ATR signal is received, in the step (S130) of checking the IC information and approving the payment, the payment may be approved according to the ATR signal.

As a result of the check, if the IC card is normally inserted, after the step of checking ATR (Answer to Reset) (S120), the power supply (Vcc and GND) for IC card operation and signals such as Clock and Reset are applied for a certain period of time. When a normal operation is not performed, such as ATR non-response, it may be provided to operate the magnetic payment mode.

10 is an algorithm of an operating method of an IC card payment device having an abnormal operation recognition function using conduction current according to another embodiment of the present invention, and FIG. 11 is an abnormal operation recognition using conduction current according to another embodiment of the present invention. It is a flowchart of the operation method of the IC card payment apparatus which has a function.

10 and 11 , in the method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current, a step S210 of checking whether the IC card is normally inserted may be performed first.

The step of checking whether the IC card is normally inserted ( S210 ) is a step of checking whether the IC card is normally inserted into the insertion unit 120 , and whether the IC card is normally inserted may be checked by the recognition unit 130 .

Here, the recognition unit 130 may be provided not only to check whether the IC card is inserted into the insertion unit 120 , but to recognize whether the IC card is inserted in the wrong direction or for too short a time.

12 is a flowchart illustrating a step of checking whether an IC card is normally inserted in a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.

Referring further to FIG. 12 , the step of checking whether the IC card is normally inserted ( S210 ) may first be performed by performing the step of inserting the IC card ( S211 ).

In the step of inserting the IC card ( S211 ), the IC card 10 may be inserted into the insertion unit 120 .

After the step (S211) of inserting the IC card, a step (S212) of checking whether the inserted IC card is normally inserted may be performed.

The step (S212) of checking whether the inserted IC card is normally inserted is provided to determine that the IC card 10 is normally inserted when a conduction current is sensed in the IC chip 20 of the IC card 10. can

After the step of checking whether the inserted IC card is normally inserted (S212), if an error occurs in the insertion of the IC card, a step (S213) of checking the number of occurrences of the error may be performed.

In the case of an error in the insertion of the IC card, in the step S213 of checking the number of occurrences of the error, if a conduction current is not detected in the IC chip 20 of the inserted IC card 10, an error in the insertion of the IC card is notified. and check the number of errors.

In this case, the number of times of occurrence of errors may mean the number of times of occurrence of errors within a predetermined time period or the number of times of occurrence of errors continuously.

When an error occurs in the insertion of the IC card, after the step of checking the number of errors (S213), if the number of errors is less than or equal to the preset number of inspections, the step of requesting reinsertion of the IC card (S214) may be performed. .

In the step of requesting reinsertion of the IC card if the number of errors is less than or equal to the preset number of inspections (S214), by guiding the IC card 10 to be reinserted if the number of errors is less than or equal to the preset number of inspections, the IC card is It may be sequentially re-performed from the inserted step (S211).

If an error occurs in the insertion of the IC card, after the step (S213) of checking the number of occurrences of the error, if the number of occurrences of the error exceeds the preset number of inspections, the step (S215) of operating the magnetic payment mode may be performed.

In the step (S215) of operating the magnetic payment mode if the number of error occurrence exceeds the preset number of inspections, if the number of errors exceeds the preset number of inspections, the magnetic payment mode is operated to operate the magnetic (30) You can guide the payment to be made.

After the step (S210) of checking whether the IC card is normally inserted, if the IC card is inserted as a result of the check, the step (S220) of checking ATR (Answer to Reset) may be performed.

As a result of the check, if the IC card is inserted, in the step of checking ATR (Answer to Reset) (S220), the ATR signal of the IC chip may be received using the recognition unit 130 .

13 is a flowchart of a step of confirming IC information and approving payment in a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.

As a result of the check, if the IC card is inserted, after the step of checking ATR (Answer to Reset) (S220), if the ATR signal is received within a preset delay time, the step of confirming the IC information and authorizing the payment (S230) can be done

When the ATR signal is received within a preset delay time, the step of confirming the IC information and approving the payment (S230) may first be performed by setting the delay time (S231).

In the step of setting the delay time ( S231 ), the delay time may be variably set according to the performance of the payment equipment, the processing speed of the payment system, and the time required for operation.

Here, the performance of the payment device may include the CPU and clock speed of the substrate unit 110 .

After the step (S231) in which the delay time is set, when the ATR signal is received within the set delay time, the step (S232) of checking the IC information may be performed.

When the ATR signal is received within a set delay time, in the step of checking the IC information ( S232 ), the recognition unit 130 may receive the IC information by applying power to the IC chip 20 .

When the ATR signal is received within the set delay time, after the step of checking the IC information (S232), the step of authorizing the payment according to the checked IC information (S233) may be performed.

In the step (S233) of approving the payment according to the confirmed IC information, it may be provided to approve the payment according to the IC information received by the recognition unit 130 .

14 is a flowchart of operating a magnetic payment mode of a method of operating an IC card payment apparatus having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.

If the IC card is inserted as a result of the check, after the step of checking ATR (Answer to Reset) (S220), if the ATR signal is not received until it exceeds the preset delay time, operating the magnetic (MS) payment mode (S240) may be performed.

When the ATR signal is not received until it exceeds the preset delay time, the step of operating the magnetic (MS) payment mode (S240), first, the step of setting the delay time (S241) may be performed.

In the step of setting the delay time ( S241 ), the delay time may be variably set according to the performance of the payment equipment, the processing speed of the payment system, and the time required for operation.

Here, the performance of the payment device may include the CPU and clock speed of the substrate unit 110 .

After the step (S241) in which the delay time is set, if the ATR signal is not received until it exceeds the set delay time, the step (S242) of operating the magnetic (MS) payment mode may be performed.

If the ATR signal is not received until exceeding the set delay time, when the ATR signal is not received until exceeding the set delay time in the step S242 of operating the magnetic (MS) payment mode, the IC card (10) is normally inserted, but it is determined that there is an abnormality in the IC chip 20 and may be provided to operate the magnetic payment mode.

15 is a flowchart of a magnetic payment mode of a method of operating an IC card payment device having an abnormal operation recognition function using a conduction current according to another embodiment of the present invention.

When the ATR signal is not received until exceeding the preset delay time, in the step S240 of operating the magnetic (MS) payment mode, the magnetic payment mode may be made according to the sequence of FIGS. 10 and 15 .

Specifically, in the magnetic payment mode, first, the step (S251) of falling back the IC card may be performed.

In the step (S251) of falling back the IC card, a person is provided to fall back the IC card 10 so that the magnetic 30 is read.

After the fallback of the IC card (S251), a step (S252) of checking the number of fallbacks within a preset time may be performed.

In the step of checking the number of fallbacks within a preset time ( S252 ), it may be arranged to check how many times the number of fallbacks has been made for a preset time.

After the step of checking the number of fallbacks within a preset time ( S252 ), if the number of fallbacks does not exceed the preset allowable number, a step of checking the magnetic information ( S253 ) may be performed.

When the number of fallbacks does not exceed the preset allowable number, in the step of checking the magnetic information (S253), if the number of pullbacks for a preset time does not exceed the preset allowable number, the magnetic 30 information is checked. can be provided.

For example, if the allowed number of times is 3 times in the last 10 minutes, but the number of pullbacks actually used is 2 times within the last 10 minutes, magnetic 30 information may be checked.

When the number of fallbacks does not exceed the preset allowable number, after the step of checking the magnetic information (S253), the step of authorizing the payment according to the checked magnetic information (S254) may be performed.

In the step of approving the payment according to the verified magnetic information (S254), it may be arranged to approve the payment according to the verified magnetic 30 information.

After confirming the number of fallbacks within a preset time (S252), if the number of fallbacks exceeds a preset allowable number, stopping the magnetic payment function for a preset time (S255) may be performed.

In the step S255 of stopping the magnetic payment function for a preset time when the number of fallbacks exceeds the preset allowable number of times, when the number of pullbacks for the preset time exceeds the preset allowable number of times, the magnetic 30 information It may be provided to stop the magnetic payment function for a certain period of time without confirming.

For example, if the allowed number of times is 3 times in the last 10 minutes, but the actual number of pullbacks used is 4 times within the last 8 minutes, the magnetic payment function may be temporarily suspended.

When the number of fallbacks exceeds a preset allowable number, after stopping the magnetic payment function for a preset time (S255), a step (S256) of requesting reinsertion of the IC card may be performed.

In the step of requesting reinsertion of the IC card (S256), the IC card may be reinserted into the insertion unit 120 to make payment using the IC chip 20 .

The present invention prepared in this way can prevent the continued use of the magnetic payment mode, which intentionally generates an error and has a fast payment approval speed but is weak in security.

As described above, the present invention can induce a stable payment using the IC chip 20 while solving the conventional problem of continuously using the magnetic payment mode, which is a fast payment approval speed but is weak in security.

The description of the present invention described above is for illustration, and those of ordinary skill in the art to which the present invention pertains can understand that it can be easily modified into other specific forms without changing the technical spirit or essential features of the present invention. will be. Therefore, it should be understood that the embodiments described above are illustrative in all respects and not restrictive. For example, each component described as a single type may be implemented in a dispersed form, and likewise components described as distributed may also be implemented in a combined form.

The scope of the present invention is indicated by the following claims, and all changes or modifications derived from the meaning and scope of the claims and their equivalents should be construed as being included in the scope of the present invention.

10: IC card
20: IC chip
21: VCC
22: Reset
23: Clock
24: first NC
25: GND
26: VPP
27: I/O
28: second NC
30: magnetic
100: IC card payment device having abnormal operation recognition function using conduction current
110: substrate unit
120: insertion part
130: recognition unit
131: first ground pin
132: first power pin
231: second ground pin
232: second power pin

Claims (11)

substrate part;
an insertion unit provided in the substrate unit to insert an IC card; and
and a recognition unit formed on the substrate and provided to check the IC information of the IC card inserted into the insertion unit,
The recognition unit is provided to check whether the IC card is normally inserted into the insertion unit,
The IC card is
Including IC chips and magnetics,
The IC chip is provided with a plurality of elements,
The recognition unit,
a plurality of first ground pins provided to contact each element of the IC chip in a one-to-one correspondence; and
and a plurality of first power pins provided to contact each element of the IC chip in a one-to-one correspondence,
The first ground pin and the first power pin provided to be in contact with each element are formed to be spaced apart from each other so that no current flows,
The recognition unit is provided such that a current flows only when the first ground pin and the first power pin are in contact with the device, and when a current flows through the first ground pin and the first power pin, the IC card is normal It is determined that it has been inserted and a current is passed to obtain IC information and payment is made.
IC card payment with abnormal operation recognition function using conduction current, characterized in that the IC card intentionally inserted for a recognition error is determined according to whether the current is detected and at the same time, payment is made through the IC card Device.
delete delete delete delete substrate part;
an insertion unit provided in the substrate unit to insert an IC card; and
and a recognition unit formed on the substrate and provided to check the IC information of the IC card inserted into the insertion unit,
The recognition unit is provided to check whether the IC card is normally inserted into the insertion unit,
The recognition unit,
a second ground pin provided to contact the central portion of the IC chip provided on the IC card; and
and a plurality of second power pins provided to contact each element of the IC chip in a one-to-one correspondence,
The recognition unit is provided such that a current flows only when the second ground pin and the second power pin come in contact with the device, and when a current flows through the second ground pin and the second power pin, the IC card is normal. It is determined that it has been inserted and a current is passed to obtain IC information and payment is made.
According to whether or not the current is sensed, an IC card that is intentionally inserted for a recognition error is determined and at the same time, a payment is made through the IC card,
The IC card payment device having an abnormal operation recognition function using a conduction current, characterized in that the second power pin provided to be in contact with each element and the second ground pin are spaced apart from each other.
delete delete 7. The method of claim 1 or 6,
The recognition unit is an IC card payment device having an abnormal operation recognition function using a conduction current, characterized in that the contact with the IC chip is formed of a plating or a conductor.
In the operating method of the IC card payment device having an abnormal operation recognition function using the conduction current according to claim 1 or 6,
a) a recognition unit including a plurality of first ground pins provided on the IC card and provided to contact each element of the IC chip in a one-to-one correspondence with each element and a plurality of first power pins provided to contact each element of the IC chip in a one-to-one correspondence It is checked whether the IC card inserted into the insertion unit is properly inserted, but the first ground pin and the first power pin are formed to be spaced apart from each other, so that current flows only when in contact with a plurality of elements provided in the IC chip. The recognition unit recognizes that the IC card is normally inserted or the IC card is inserted abnormally according to a result of comparing the number of times of error occurrence according to whether the conduction current is sensed for the IC chip and a preset number of inspections. preventing intentional induction of recognition errors by recognizing them as
b) checking the ATR (Answer to Reset), considering that the IC card is normally inserted, when the number of times of error occurrence is recognized by the recognition unit as less than a preset number of inspections; and
c) when the ATR signal is received within a preset delay time, the recognition unit confirms the IC information and the substrate unit on which the recognition unit is formed approves the payment;
Operation of an IC card payment device having an abnormal operation recognition function using conduction current, characterized in that in step a), when a conduction current is sensed in the IC chip of the IC card, it is determined that the IC card is normally inserted. Way. delete

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