KR100984821B1 - Card reader for detecting integrated circuit chip of card and method the same - Google Patents

Abstract

PURPOSE: A card reader and a method for distinguishing whether an IC chip exists or not as non-contact way are provided to rapidly and accurately distinguish whether an inserted card to a card reader is a magnetic card or an IC card. CONSTITUTION: A metal sensor detects electrostatic capacity or self-capacity change when metal of an inserted card(10) is near to the constant distance. A temperature sensor(130) measures the temperature change of nearby the metal detecting sensor. An oscillation circuit unit(140) transmits the designated value of the oscillation frequency. By distinguishing whether the oscillation frequency change is by the temperature change or the metal, a micro computer unit(160) distinguishes whether the metal exist or not as in non contact way.

Description

Card reader and method to determine the presence or absence of IC chip in card by non-contact method {CARD READER FOR DETECTING INTEGRATED CIRCUIT CHIP OF CARD AND METHOD THE SAME}

The present invention relates to a card reader and method for determining the presence or absence of an IC (Integrated Circuit) chip of the card in a non-contact manner, and more specifically, it is possible to quickly and accurately determine whether the card inserted into the card reader is a magnetic card or an IC card. The present invention relates to a card reader and a method for determining the presence or absence of an IC chip that can solve the problem of shortening the contact terminal life of the card reader according to the number of cards inserted.

There are IC cards, also known as smart cards, that incorporate magnetic cards that use magnetic stripe (MS) methods and integrated circuit (IC) chips, depending on how the card stores information.

The IC chip of the IC card has a processor capable of memory and arithmetic functions, and the IC chip can be used to perform security functions such as digital signatures and access control functions (physical access control and online access control). It can also provide services such as point services, e-tickets, as well as payment financial services such as card payment, cash withdrawal.

Magnetic cards do not have security and identity verification at all, so if the card is lost or if the card is forged or forged and used, it causes great damage to the cardholder or the card-issuing financial institution.

However, in the case of an IC card, the card itself can be used relatively securely through a personal identification function such as a fingerprint recognition function or a password verification operation through a card reader.

Due to the various functions and safety of such IC cards, IC cards are expected to become the mainstream of the next generation card business, and the types of cards are gradually being replaced from magnetic cards to IC cards all over the world.

In the automated teller machine, in order to determine whether the card inserted by the user has an IC card function, the terminal is contacted and the power is applied so that a series of IC cards can be connected to the contact point of the IC card defined by the international standard. Determine if the signal is sent or received according to the operating procedure.

If there is a signal transmission / reception, it is determined that the IC card has a function, and the IC card reads the information necessary for the transaction. If there is no signal transmission / reception, the card is identified as a card having only a magnetic strip. It works by reading.

However, since all the cards inserted into the card reader have to go through a series of signal transmission and reception processes by contacting the contact terminal of the card reader with the IC card, it is necessary to determine whether the IC card function is provided. There is a problem even if it takes.

That is, since the inserted card is distinguished from the IC card or the magnetic card, there is a problem in that the operation speed of a device such as an automatic teller machine which uses an IC card and a magnetic card is slowed down.

In addition, since the contact terminals of the apparatus must be contacted with respect to all cards inserted, there is a problem in that the lifetime of the contact terminals is shortened according to the number of cards inserted.

In addition, in the case of coils and capacitors used as means for detecting IC chips in IC cards, the inductance and capacitance change depending on the ambient temperature, respectively. There is a problem of malfunction.

The present invention is to solve the above problems, it is possible to determine whether the card inserted into the card reader is a magnetic card or an IC card more quickly and accurately, the problem of shortening the contact terminal life of the card reader according to the number of cards inserted It is an object of the present invention to provide a card reader and method for determining whether the IC (Integrated Circuit) chip of the card that can eliminate the non-contact method.

In order to achieve the above object, the present invention, a metal detection sensor for transmitting a signal by detecting a change in capacitance or magnetic capacity when the metal of the card is close to within a certain distance; A temperature sensor which transmits a signal by measuring a temperature change around the metal sensor; An oscillation circuit unit for transmitting an oscillation frequency having a predetermined value in which the temperature change is reflected in the capacitance or the capacitance change; And determining whether the change of the oscillation frequency is caused by the temperature change or the metal by the amount of change from the default oscillation frequency in the absence of the metal to the oscillation frequency of the predetermined value to determine the presence or absence of the metal in a non-contact manner. A microcomputer unit; It provides a card reader for determining the presence or absence of the IC (Integrated Circuit) chip of the card comprising a non-contact method.

As described above, the present invention has the following effects.

First, since it is possible to quickly and accurately determine whether the card inserted into the card reader is a magnetic card or an IC card, the card reader can be operated more quickly and stably, thereby reducing the time required for financial transactions.

Secondly, since the contact terminal of the card reader is contacted only when the IC chip is present on the card surface, the life of the contact terminal and the card can be extended at the same time.

Third, since the temperature sensor is periodically installed around the metal sensor and the detection sensitivity is adjusted according to the temperature change, the detection performance changes according to the temperature change in the process of determining whether or not the metal is mounted on the card. Since it does not occur, it is possible to solve the malfunction problem caused by the temperature change when determining the presence or absence of the IC chip.

1 is a schematic block diagram of a card reader for determining the presence or absence of an IC chip of a card according to an embodiment of the present invention.
2 is a flowchart illustrating a method of determining whether an IC chip is present in a card according to an embodiment of the present invention in a non-contact manner.

Hereinafter, exemplary embodiments of the present invention will be described in detail with reference to the accompanying drawings. First of all, in adding reference numerals to the components of each drawing, it should be noted that the same reference numerals are used as much as possible even if displayed on different drawings. In addition, in describing the present invention, when it is determined that the detailed description of the related well-known configuration or function may obscure the gist of the present invention, the detailed description thereof will be omitted.

1 is a schematic block diagram of a card reader for determining whether there is an integrated circuit (IC) chip of a card according to an embodiment of the present invention in a non-contact manner.

Referring to Figure 1, the card reader 100 for determining the presence or absence of the IC chip of the card according to an embodiment of the present invention is a card inlet 110, metal detection sensor 120, temperature sensor 130, It is configured to include an oscillator circuit 140, the sensitivity control unit 150 and the microcomputer unit 160.

The card inlet 110 is installed at a predetermined position of the card reader 100, and the user inserts the card 10 through the card inlet 110.

The metal sensor 120 is installed in the card inlet 110, and detects a change in capacitance or magnetic capacity when the metal of the card 10 introduced into the card inlet 110 is approached within a predetermined distance Send a signal.

The card 10 includes a magnetic card 11 and an IC card 12. Since the IC card 12 includes an IC chip 13 made of a metallic material, the IC chip 13 is formed of the metal. It may be detected by the sensor 120.

The temperature sensor 130 transmits a signal by measuring a temperature change around the metal sensor 120.

The oscillation circuit unit 140 transmits an oscillation frequency having a predetermined value reflecting the change in temperature measured by the temperature sensor 130 to the change in capacitance or magnetic capacitance sensed by the metal detection sensor 120. .

The sensitivity control unit 150 serves to adjust the oscillation frequency or gain of the oscillation circuit unit 140 to adjust the amount of change from the oscillation frequency of the default value when there is no metal to the oscillation frequency of the predetermined value, It is provided to correct the deviation of the metal detection sensor 120 and the deviation of the oscillation circuit 140.

The microcomputer 160 determines whether the change of the oscillation frequency is caused by the temperature change or the metal by the amount of change from the default oscillation frequency to the oscillation frequency of the predetermined value to determine the metal, that is, the IC chip ( 13) to determine the presence or absence of the non-contact method, by using the sensitivity control unit 150 and the temperature sensor 130 can maintain the optimum operating state, it is possible to accurately determine.

At this time, if the metal is located in the electric or magnetic field, the dielectric constant or permeability is changed compared to the absence of the metal.

In order to detect a change in permittivity or permeability, when the card 10 is inserted into the card reader 100, the core of the capacitor or the core of the coil is located close to the area where the metal of the card 10 is located. Preferably, for this purpose, the metal sensor 120 includes a core of the pole plate or the coil of the capacitor.

In the case of the capacitor, the capacitance changes, and in the case of the coil, the inductance changes according to the change in permittivity and permeability according to the presence or absence of the metal.

In the oscillation circuit unit 140 configured to determine the oscillation frequency according to the total capacitance or the inductive capacitance sensed by the metal detection sensor 120, the oscillation frequency is changed according to the presence or absence of the metal, and the change amount is measured by the microcomputer unit ( The measurement through the 160 makes it possible to detect the presence or absence of metal in the card 10.

In other words, since it is determined whether the IC chip 13 exists in the card 10 inserted into the card inlet 110 using the metal detecting sensor 120, the electrical connection to the IC chip 13 is performed. There is an advantage that can know whether the IC card 12 is inserted into the card reader 100 without having to.

That is, when the card 10 is inserted into the card slot 110 of the card reader 100, it is determined whether the IC chip 13 is present in the card 10 in a non-contact manner, When the IC chip 13 is not mounted, the card 10 is recognized as the magnetic card 11, and the financial transaction information is read directly from the magnetic strip.

When the IC chip 13 is mounted on the card 10 by the determination, the card 10 is recognized as the IC card 12 and the financial transaction information is read from the IC chip 13.

Accordingly, it is possible to quickly and accurately determine whether the card 10 inserted into the card reader 100 is the magnetic card 11 or the IC card 12, so that the card reader 100 can be operated more quickly and stably. The time required for financial transactions can be shortened.

In addition, since the IC chip 13 contacts the contact terminal of the card reader 100 only when the IC chip 13 is present on the surface of the card 10, there is an advantage of extending the life of the contact terminal and the card 10 at the same time. have.

On the other hand, the dielectric constant or permeability is changed according to the change in the ambient temperature of the metal sensor 120, the permeability is changed in the case of the coil, the dielectric constant is changed in the case of the capacitor.

The change in permeability and permittivity is represented by a change in inductance and capacitance, and the oscillation frequency of the oscillation circuit 140 is also changed by this change.

Therefore, when the oscillation frequency changes according to the temperature change around the metal sensor 120 and whether the oscillation frequency changes due to the metal, it is possible to determine more precisely.

To this end, the microcomputer unit 160 periodically measures the current temperature through the temperature sensor to accurately determine whether the oscillation frequency change of the output signal from the oscillation circuit unit 140 is caused by a change in temperature or by a metal. Determine it.

The determination will be described in more detail as follows.

Using the oscillation frequency at the reference temperature as the reference frequency, the change width of the oscillation frequency when the temperature is higher than the reference temperature and the change width of the oscillation frequency when the temperature is lower than the reference temperature are set on the program embedded in the microcomputer. It is calculated how much the temperature change compared to the reference temperature when the oscillation frequency changes instantaneously.

That is, the microcomputer unit 160 is set to the oscillation frequency change amount for the temperature change amount in the built-in program, if the oscillation frequency change amount due to the change of the temperature is added or subtracted to the measured oscillation frequency of the predetermined value or more It is determined that the metal is detected.

As described above, the metal is mounted on the card 10 because the temperature sensor 130 is installed around the metal sensor 120 to periodically measure the temperature and adjust the detection sensitivity according to the temperature change. Since the detection performance does not change due to the temperature change in the process of determining whether or not it is, it is possible to solve the malfunction problem caused by the temperature change when determining the presence or absence of the IC chip.

Although not shown in the drawings, the power supply for driving the card reader 100 may be supplied with power from an external source or a built-in battery.

On the other hand, Figure 2 is a flow chart for a method for determining the presence of the IC chip of the card according to an embodiment of the present invention in a non-contact manner, a card reader for determining the presence or absence of the IC chip 13 of the card 10 in a non-contact manner Descriptions of structures, effects, and the like that overlap with 100 will be omitted.

Referring to FIG. 2, first, the card 10 is inserted into the card insertion hole 110 of the card reader 100 (S201), and the metal detecting sensor 120 has a predetermined distance between the metals of the inserted card 10. When approaching within, it detects a change in capacitance or self capacitance and transmits a signal (S202).

The temperature sensor 130 transmits a signal by measuring a change in temperature around which the change in capacitance or magnetic capacitance is sensed (S203), and the oscillation circuit unit 140 detects the capacitance detected in step S202. In addition, the oscillation frequency of the predetermined value reflecting the change in temperature measured in step S203 is transmitted to the change in magnetic capacitance (S204).

Next, the microcomputer unit 160 determines whether the change in the oscillation frequency is caused by the temperature change or the metal by a change amount from the default oscillation frequency when the metal is not present to the oscillation frequency of the predetermined value. The presence or absence of the metal is determined in a non-contact manner (S205).

If it is determined in step S205 that the metal is detected, the card 10 recognizes that the IC card 12 is mounted with the IC chip 13 and reads financial transaction information from the IC chip 13 ( S206).

If it is determined in step S205 that the metal is not detected, the card 10 recognizes that it is a magnetic card 11 and reads financial transaction information from the magnetic strip (S207).

If no metal is detected in step S202, step S207 proceeds immediately after step S202.

At this time, the step S205 is characterized in that the amount of change from the oscillation frequency of the default value to the oscillation frequency of the predetermined value.

Further, in the step S202, it is preferable to use the core of the capacitor plate or the coil, and the core of the capacitor plate or the coil of the capacitor is provided to be close to the region where the metal is located.

In addition, in step S205, the oscillation frequency change amount is set in the built-in program, and the metal is detected if the oscillation frequency change amount due to the temperature change is subtracted from the measured oscillation frequency by more than a predetermined change amount. It is determined that it is.

Through the precise determination as described above, the coil and the condenser malfunction due to the change in the inductance and capacitance inherent in accordance with the ambient temperature, respectively, or the detection performance is weakened or the IC chip 13 is absent in the card 10. The problem can be solved.

The foregoing description is merely illustrative of the technical idea of the present invention, and various changes and modifications may be made by those skilled in the art without departing from the essential characteristics of the present invention. Therefore, the embodiments disclosed in the present invention are not intended to limit the technical idea of the present invention but to describe the present invention, and the scope of the technical idea of the present invention is not limited by these embodiments. The protection scope of the present invention should be interpreted by the following claims, and all technical ideas within the equivalent scope should be interpreted as being included in the scope of the present invention.

100: card reader
110: card slot
120: metal detection sensor
130: temperature sensor
140: oscillation circuit
150: sensitivity control unit
160: microcomputer unit 160

Claims (8)

A metal sensor for detecting a change in capacitance or magnetic capacitance and transmitting a signal when the metal of the inserted card is approached within a predetermined distance;
A temperature sensor which transmits a signal by measuring a temperature change around the metal sensor;
An oscillation circuit unit for transmitting an oscillation frequency having a predetermined value in which the temperature change is reflected in the capacitance or the capacitance change; And
The non-contact method is used to determine whether the change of the oscillation frequency is caused by the temperature change or the metal by the amount of change from the default oscillation frequency in the absence of the metal to the oscillation frequency of the predetermined value. A microcomputer unit; Including;
A sensitivity control unit for adjusting an amount of change from the default oscillation frequency to the oscillation frequency of the predetermined value; In the non-contact manner the presence of an IC (Integrated Circuit) chip of the card, characterized in that it further comprises Card reader to determine. delete The method of claim 1,
The metal detecting sensor includes a core of a pole plate or a coil of a capacitor, and the core of the pole plate or coil of the capacitor is installed so as to be close to a region where the metal is located. Card reader. The method of claim 1,
The microcomputer unit has an oscillation frequency change amount to a temperature change amount set in a built-in program, and it is determined that the metal is detected if the oscillation frequency change caused by the temperature change is added to or subtracted from the measured oscillation frequency to a predetermined change amount or more. A card reader for determining the presence or absence of the IC chip of the card, characterized in that the non-contact method. A metal sensing step of transmitting a signal by detecting a change in capacitance or magnetic capacitance when the metal of the inserted card is approached within a predetermined distance;
A temperature measuring step of transmitting a signal by measuring a change in temperature around the sensed change in capacitance or magnetic capacitance;
An oscillation frequency transmitting step of transmitting an oscillation frequency of a predetermined value in which the temperature change is reflected in the capacitance or the capacitance change; And
The non-contact method is used to determine whether the change of the oscillation frequency is caused by the temperature change or the metal by the amount of change from the default oscillation frequency in the absence of the metal to the oscillation frequency of the predetermined value. Metal presence determination step; Including;
In the metal presence determination step, the non-contact method of determining the presence or absence of the IC chip of the card, characterized in that for controlling the amount of change from the oscillation frequency of the default value to the oscillation frequency. delete The method of claim 5, wherein
In the metal sensing step, the presence of the IC chip of the card is determined in a non-contact manner, wherein the core of the capacitor or the core of the coil is used so that the core of the capacitor or the coil of the capacitor is located close to the region where the metal is located. How to. The method of claim 5, wherein
In the metal presence / determination step, the oscillation frequency change amount is set in the built-in program, and the metal is detected when the oscillation frequency change amount due to the temperature change is subtracted from the measured oscillation frequency by more than a predetermined change amount. And a non-contact method for determining the presence or absence of an IC chip of a card, characterized in that the card is discriminated.

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