KR20180131249A - A card reader and a method for receiving card information using the same - Google Patents

Abstract

A card reader according to an embodiment of the present invention includes a connection terminal portion for connection to a card integrated circuit (IC) chip terminal and a connection terminal portion connected to the connection terminal portion, And a control section for receiving card information from the IC chip terminal of the card through the connection terminal section on the basis of the output detection signal.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention [0001] The present invention relates to a card reader and a card information receiving method using the card reader.

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a card reader and a card information receiving method using the same, more specifically, to a technique for determining whether a card of a card reader is pulled in.

A credit card incorporating an integrated circuit (IC) chip is called a smart card or an IC card, and there are a contact card, a contactless card, and a hybrid card. The contact type card is a card that operates by physical contact between the contact portion of the card reader and the smart card, and the contactless type card is a card that operates by communicating with a smart card terminal having an antenna by means of a radio frequency signal. There is a hybrid card in which a contact card and a contactless card are physically present in one card.

The contact type card is operated due to the physical contact between the smart card reader and the contact point (CHIP) of the smart card. The contact type card may have electric shock or damage due to frequent contact of the contact point. However, contact-type cards are widely used for transaction authentication and digital signatures that focus on security and handle a relatively large amount of data.

When the contact type IC card is inserted into the card reader in the correct position, the terminals in the card reader are connected to the IC chip terminals of the IC card so as to correspond to each other. When the terminals in the card reader are connected to correspond to the IC chip terminals of the IC card, the card reader can receive the card information from the IC chip terminal of the contact type IC card.

In order to determine whether or not the IC card is inserted into the card reader in the correct position, the card reader has a physical switch or an infrared sensor.

However, card readers using physical switches and infrared sensors have separate product life span of the switch and the sensor itself. In addition, foreign matter may flow into the physical switch or the infrared sensor, and detection error may occur frequently. Accordingly, the reliability of the product due to the physical switch and the infrared sensor provided in the card reader is deteriorated, and the AS cost increases.

The present invention provides a card reader for preventing product reliability degradation caused by a detection error and reducing the cost due to an after-sales service (AS).

The present invention provides a card reader that checks whether a card is inserted or not by a change in an internal resistance value.

A card reader according to an embodiment of the present invention includes a connection terminal portion for connection of an IC chip terminal of a card and a card for outputting a detection signal which is connected to the connection terminal portion, And a card control unit for receiving the card information from the card IC chip terminal through the connection terminal unit based on the output detection signal.

A card information receiving method of a card reader having a connection terminal portion for connection to a card IC chip terminal according to an embodiment of the present invention includes the steps of monitoring a change in resistance of a connection terminal portion, Recognizing that the card has been pulled in; and receiving card information of the pulled-in card from the IC chip of the pulled-in card through the connection terminal when recognizing that the card is pulled in.

The card reader according to the embodiment of the present invention judges whether or not the IC card is pulled in by using the resistance change of the connection terminal provided in the card reader which is in contact with the IC chip of the card. Accordingly, it is not necessary to provide a physical switch or an infrared sensor provided in the conventional card reader, so that it is possible to reduce a detection error due to the inflow of foreign matter and to measure the resistance change using a semiconductor such as OP-AMP. Can be remarkably improved.

1 is a block diagram showing a configuration of a card reader.
2 is a block diagram showing a configuration of a card reader according to an embodiment of the present invention.
3 is a diagram showing the configuration of an IC chip terminal of a card according to the ISO / IEC standard.
4A and 4B are circuit diagrams showing an operational amplifier used in a card detector according to an embodiment of the present invention.
5 is a flowchart showing a card information receiving method according to an embodiment of the present invention.

Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the following description of the embodiments 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. In addition, the terms described below are defined in consideration of the functions in the specific embodiments, and can be replaced with other terms depending on the intention or custom of the user, the operator. Accordingly, these terms will be more clearly defined in accordance with the description of various embodiments of the present invention. Furthermore, in describing the embodiments of the present invention, the ordinal numbers such as 'first', 'second', etc. are used to distinguish objects of the same name from each other, and the order may be arbitrarily determined. Further, the card described in the present invention includes a contact smart card and a hybrid smart card.

1 is a block diagram showing a configuration of a card reader.

1, the card reader includes a connection terminal unit 110 for connection to an IC chip provided on a card, and a control unit (not shown) for processing card information from the IC chip of the card through the connection terminal unit 110 120).

The card connection unit 110 includes a connection terminal unit 111 and a card detection unit 112. The control unit 120 includes a card control unit 121. [

The connection terminal portion 111 of the card connection portion 110 has a plurality of connection terminals. The IC chip terminals of the card are connected so as to correspond to a plurality of connection terminals provided on the connection terminal portion 111 of the card reader when the card is drawn into the card reader and is seated in the correct position.

On the other hand, when the card is not inserted into the card reader or is not correctly inserted, the IC chip terminals of the card can not be connected to a plurality of connection terminals provided in the connection terminal portion 111 of the card reader.

If the card control unit 121 receives the card information through the connection terminal unit 111 in a state where the card is not properly inserted into the card reader, an error will occur because the card information can not be received. In order to prevent such an error, the card reader includes a card detection unit 112. [

The card detecting unit 112 judges whether or not the card is retracted. Specifically, when the card is inserted into the card reader and the IC chip of the card is connected correspondingly to a plurality of connection terminals provided on the connection terminal portion 111 of the card reader, the card detection unit 112 recognizes that the card is inserted .

If the card detecting unit 112 determines that the card is brought into the card reader, the card detecting unit 112 transmits a detection signal indicating that the card has been brought into the card reader to the card controller 121. [ On the other hand, if the card is not properly inserted into the card reader, the card control unit 121 may transmit a detection signal indicating that the card is not brought into the card reader 121, or may not transmit the detection signal itself.

Upon receiving the detection signal from the card detection unit 112, the card control unit 121 generates a card control signal and reads the card information from the IC chip terminal of the card through the connection terminal unit 111. [

2 is a block diagram showing the configuration of a card reader according to an embodiment of the present invention.

The configuration of the card reader according to the embodiment of the present invention shown in FIG. 2 is partially the same as the configuration of the card reader shown in FIG. A detailed description thereof will be omitted.

2, the card reader includes a connection terminal portion 210 for connection to an IC chip provided on the card, and a control portion 220 for processing the card information from the IC chip of the card.

The card connection unit 210 includes a connection terminal unit 211 and a card detection unit 212. The control unit 220 includes a card control unit 221. [

The connection terminal portion 211 of the card connection portion 210 has a plurality of connection terminals. The IC chip terminals of the card are connected to correspond to a plurality of connection terminals provided on the connection terminal portion 211, respectively. For example, the card detection unit 110 detects a resistance value that is changed according to at least one terminal provided in the IC chip of the card is connected to at least one corresponding terminal among a plurality of connection terminals provided in the connection terminal unit 111 It is possible to recognize that the card has been brought in.

The card detection unit 212 determines whether or not the card is retracted. If it is determined that the card has been drawn into the card reader, the card detector 212 transmits a detection signal to the card controller 221 indicating that the card has been pulled into the card reader.

The card detection unit 212 may be electrically connected to at least one of the connection terminals provided in the connection terminal unit 211 to determine whether the card is brought in based on a change in resistance of at least one connection terminal connected thereto.

It is necessary to consider the IC chip terminal configuration of the card in order to know which of the connection terminals provided on the connection terminal section 211 needs to be connected to the card detection section 212. [

3 is a diagram showing the internal structure of an IC chip of a card used in an embodiment of the present invention. The IC chip configuration shown in FIG. 3 refers to the IC chip configuration of the card according to the ISO / IEC standard. The card used in the card reader is not limited to the card shown in Fig.

Referring to FIG. 3, the direction in which the card of the rectangular shape is drawn may be generally the direction in which the card is disposed closest to the IC chip. For example, in FIG. 3, the left direction may be the leading direction.

The IC chip of the card may include eight terminals. Specifically, the IC chip includes C1 to C4 terminals and C5 to C8 terminals in the left column and the right column, respectively. The C1 to C8 terminals are described in Table 1 below.

As shown in Table 1, among the IC chip terminals C1 to C8, C4 and C8 are redundant terminals that are not used. Therefore, the connection terminal portions corresponding to C4 and C8 which are not used among the IC chip terminals in the object of the connection terminal portion measured by the card detection section can be excluded from the measurement object.

 When the card is fully inserted, the C1 to C4 terminals of the card are connected to the connection terminals of the card reader connection terminal portion 211 corresponding thereto. Therefore, in order to determine whether the card is fully inserted, the connection terminal of the card reader connection terminal portion corresponding to any one of the terminals C1 to C3 can be measured. The connection terminal of the connection terminal portion of the card reader corresponding to the C5 terminal which is the ground terminal can also be measured. The change in resistance between the connection terminal of the card reader connection terminal portion corresponding to one of the terminals C1 to C3 and the connection terminal of the connection terminal portion of the card reader corresponding to the C5 terminal as the ground terminal is preferably an object of measurement.

Therefore, the card detection unit 212 of the card reader detects the connection terminal of the connection terminal unit 211 corresponding to one of the card IC chip terminals C1 to C3 and the connection terminal unit C5 corresponding to the ground terminal of the card IC chip And outputs a detection signal based on the change in resistance between the connection terminals.

However, if C4 and C8 are not used at present, the proposed embodiment can be applied equally.

4A is a diagram showing the state of an operational amplifier circuit in a state in which a card is drawn, and FIG. 4B is a diagram showing a state of an operational amplifier circuit in a state in which a card is not drawn.

The operational amplifier shown in FIGS. 4A and 4B corresponds to an example of one of the plurality of card detectors according to the embodiment of the present invention, but the configuration of the card detector according to the embodiment of the present invention is not limited. 4A and 4B are diagrams showing a structure for a practical OP-AMP rather than a structure for an ideal OP-AMP.

The circuit state of the operational amplifier when the card is drawn will be described with reference to FIG. The operational amplifier includes a non-inverting input terminal 411, an inverting input terminal 412, and an output terminal 413. A resistor R1 is connected between the non-inverting input terminal 411 and the inverting input terminal 412. The non-inverting input terminal 411 is connected to the power supply Vs, and the inverting input terminal 412 is connected to the load RL. The load R _L is disposed between the ground 414 and the inverting input terminal 412 and connected to the ground 414 and the inverting input terminal 412. Here, the two contacts 415 and 416 of R _L refer to two connection terminals provided in the connection terminal portion electrically connected to the card detector. And R _L corresponds to the resistance between the two terminals of the card.

When the two connection terminals 415 and 416 of R _L are respectively connected to the inverting input terminal 412 and the ground terminal 414 of the operational amplifier, the passage of the current i1 from the voltage source Vs to the ground terminal 414 is So that current flows through R1, Ri and R _L. A voltage drop due to R1 and Ri occurs due to the current flowing through R1 and Ri. Therefore, the voltage V + of the non-inverting terminal and the voltage V- of the inverting terminal are different from each other due to the voltage drop. (V + - V-) is not 0 because the voltage V + of the terminal and the voltage V- of the inverting terminal are different from each other in the formula Io = A (V + - V-) for the slave current source, . Such a change in the output current can be handled as a detection signal.

On the other hand, as shown in FIG. 4B, the connection terminal of the connection terminal portion in a state in which the card is not drawn is not electrically connected to the card IC chip terminals. However, the connection terminal of the connection terminal portion can be regarded as connected by the internal resistance R _L 'of the card detection portion. That is, since the connection terminal of the connection terminal portion is electrically connected to the card detection portion, it can be seen that the internal resistance (R _L ') of the card detection portion is connected to the connection terminal of the connection terminal portion. Therefore, the circuit shown in Fig. 4B does not operate as an open circuit, and an output current io 'exists.

On the other hand, the measured value of the current io 'output by the operational amplifier in accordance with the internal resistance R _L ' by the card detection unit is calculated by the calculation based on the resistance R _L between the card IC chip terminals when the card is pulled in Is different from the measured value of the current (io) output by the amplifier.

Therefore, when the card is drawn in the state in which the card is not drawn, or vice versa, the state of the drawing of the card can be determined by using the change in the current outputted according to the resistance change.

As described above, the current io which changes in accordance with the resistance change can be used as the detection signal. On the other hand, since the IC chip provided on the card is made of a semiconductor, even if the resistance between two terminals is randomly measured among the eight terminals provided on the IC chip, the resistance value is not measured to be infinite, Mega is measured in ohms. Therefore, when the terminals of the card IC chip are connected to the connection terminal portion 211 of the card reader and the connection terminal, a change in resistance can be detected by the card detection portion. Accordingly, it is possible to determine whether or not the card is brought in based on the resistance change by the card detection unit. The current change amount range or the current range for judging that the card is inserted can be set in advance.

5 is a flowchart related to a card information receiving method according to an embodiment of the present invention.

S510 may be an initial state in which the card is not inserted and a card in which the card is inserted. In step S520, it is determined whether or not the card is retracted based on the resistance change of the connection terminal unit 211. [ Monitoring the change in resistance of the connection terminal portion, and recognizing that the card is brought in based on the resistance change sensed at the connection terminal portion.

If it is recognized in step S520 that the card has been brought in, the process proceeds to step S530. On the other hand, if it is determined that the card is not inserted, the process returns to step S510, and the presence or absence of the resistance change of the connection terminal unit 211 is monitored. In step S530, the card information is received from the IC chip of the inserted card through the connection terminal unit.

The detailed description of the steps S510 to S530 is the same as that described in connection with FIGS. 1 to 3, and therefore a description thereof will be omitted.

The card reader can determine whether or not the card is retracted based on the resistance change of the connection terminal portion 211. [ Accordingly, since the card reader does not require a physical switch or an infrared sensor, detection errors due to foreign matter can be reduced. By using a semiconductor element such as OP-AMP in the card detector, the life of the card detecting section can be remarkably improved.

If it is determined that the card has been drawn into the card reader, the card detector 212 transmits a detection signal to the card controller 221 indicating that the card has been pulled into the card reader. On the contrary, if the card detecting section 212 determines that the card is not inserted into the card reader, it may transmit a detection signal to the control section 221 indicating that the detection signal is not transmitted or that the card has not been brought into the card reader have.

Upon receiving the detection signal from the card detection unit, the control unit 221 generates the card control signal and receives the card information via the connection terminal unit 211. [

As described above, the embodiment of the present invention has been described for the contact card reader. However, the present invention can also be applied to the configuration of a hybrid card reader capable of both settlement of the contact type card and contactless type card.

While the invention has been shown and described with reference to certain preferred embodiments thereof, it will be apparent to those skilled in the art that various changes and modifications may be made without departing from the scope of the invention.

Card reader 100, 200-terminal connection unit 110, 210
Connection terminal portions 111 and 211, card detection portions 112 and 212
The control unit 120, the card control unit 121, the card control unit 221

Claims (10)

A connection terminal portion for connection to a card integrated circuit (IC) chip terminal;
A card detection unit connected to the connection terminal unit and outputting a detection signal indicating whether a card is inserted or not based on a change in resistance at the connection terminal unit; And
And a card control unit for receiving card information from the card IC chip terminal through the connection terminal unit on the basis of the output detection signal. The method according to claim 1,
Wherein the card detection unit is connected to two connection terminals among a plurality of connection terminals provided in the connection terminal unit and outputs a detection signal based on a change in resistance between the two connection terminals connected thereto Reader. The method according to claim 1,
Wherein the card detection unit includes an operational amplifier (op-amp)
Wherein the operational amplifier outputs a current corresponding to a change in resistance of the connection terminal portion as a detection signal. The method according to claim 1,
The connection terminal portion is connected to the VCC terminal, the RST (reset) terminal, the CLK (clock) terminal, the GND (ground) terminal, the VPP terminal and the I / O (input / output) terminal provided in the card IC chip according to the ISO / Each including corresponding connection terminals,
Wherein the detection signal is a signal that is output in response to a change in resistance between a first connection terminal corresponding to one of the VCC terminal, the RST terminal, and the CLK terminal and a second connection terminal corresponding to the GND terminal. Reader. 5. The method of claim 4,
Wherein the card detection unit includes an operational amplifier,
The operational amplifier includes:
An inverting input terminal connected to the connection terminal corresponding to one of the VCC terminal, the RST terminal and the CLK terminal, a non-inverting input terminal connected to the voltage source, and a non-inverting input terminal connected between the non-inverting input terminal and the inverting input terminal And a resistor. A card information receiving method of a card reader having a connection terminal portion for connection to a chip terminal of a card integrated circuit (IC)
Monitoring a change in resistance of the connection terminal portion;
A step of recognizing that a card is inserted based on a change in resistance sensed by the connection terminal,
And receiving card information of the card inserted from the IC chip of the card inserted through the connection terminal unit when it is recognized that the card is inserted. The method of claim 6, wherein the step of monitoring the resistance change comprises:
And monitoring a change in resistance between two connection terminals of the plurality of connection terminals provided in the connection terminal portion. The method of claim 6, wherein the step of monitoring the resistance change comprises:
And detecting a resistance change by an output signal of an operational amplifier (op-amp) coupled to the connection terminal portion. The method of claim 6, wherein the step of monitoring the resistance change comprises:
A connection terminal corresponding to the VCC terminal, the RST (reset) terminal, the CLK (clock) terminal, the GND (ground) terminal, the VPP terminal, and the I / O (input / Respectively,
And detecting a change in resistance between a first connection terminal corresponding to one of the VCC terminal, the RST terminal and the CLK terminal and a second connection terminal corresponding to the GND terminal. Way. 10. The method of claim 9, wherein the step of monitoring the resistance change comprises:
An inverting input terminal connected to a connection terminal corresponding to one of the VCC terminal, the RST terminal and the CLK terminal, a non-inverting input terminal connected to the voltage source, and a non-inverting input terminal connected between the non-inverting input terminal and the inverting input terminal And detecting a resistance change based on a signal output from an operational amplifier including a resistor.

Images