KR100480204B1 - Method for protecting smart card from electric shock and the smart card - Google Patents

Abstract

The present invention relates to a smart card that is embedded in a special terminal such as a wireless communication terminal to perform user authentication, payment, payment, and the like, and more specifically, to an unused spare connection terminal for use in a special terminal for a specific purpose. When you want to use a smart card with a specific function on another type of terminal equipped with an internal circuit with a specific function in the unused spare connection terminal corresponding to another specific purpose. The present invention relates to a method for protecting a smart card from electric shock at a connection terminal.

Description

Smart card protection method for abnormal signals and its smart card {Method for protecting smart card from electric shock and the smart card}

The present invention relates to a smart card embedded in a special terminal such as a wireless communication terminal to perform user authentication, payment, payment, etc.,

More specifically, a smart card that adds a specific function to an unused spare terminal for use in a specific terminal for a specific purpose has an internal circuit having a specific function on an unused spare terminal that corresponds to another specific purpose. The present invention relates to a method for protecting a smart card from an electric shock at an unused spare connection terminal of a smart card due to a change of the terminal. It can be defined as a card with an electronic chip that consists of operating system, security module, memory area, etc. and performs user authentication, payment, and payment.

Smart cards, including financial services, are rapidly spreading due to the recent increase in network usage such as the Internet and the development of information and communication environment.

The reason why smart card can be used as a more secure means of authentication and payment is that it cannot be easily read or changed without proper authentication process, and it has the most complete security function at the current technology level. By having a much larger storage capacity than magnetic cards,

It can solve weak security such as easy cloning of existing magnetic card itself, forgery and possibility of forgery of transaction history, and smart user information and secret key stored in existing user's computer with high encryption risk with encryption algorithm. This is because the security can be enhanced by storing the data inside the card.

Due to the superior security, storage capacity, and more convenient mobility of these smart cards, their applications are expanding to various applications. Indeed, the highly secure elements, data storage capabilities, and convenient mobility provided by smart cards enable a variety of applications (public phones, wired and wireless communications, finance, health, Pay TV, traffic, ID, secure access control, network cards, etc.). Various types of smart cards are adopted and used according to each purpose.

Smart cards can be classified in various ways according to their criteria, but they can be classified into contact cards, contactless cards, and combined cards according to data input / output methods.

A contact card is a card that is supplied with power by contacting the card contact with the contact point of the terminal that reads the card, and the card is activated to transmit and receive information with the terminal.The contactless card has almost the same structure in terms of the internal structure of the electronic chip as the contact card. However, there is a difference in that power is supplied through the electromagnetic induction method by the antenna connected to the card and the card is activated to transmit and receive information with the terminal.

Combination cards are classified into Combi Cards and Hybrid Cards, and have a common feature in that they support both contact and contactless cards.

Meanwhile, each connection terminal of the smart card is standardized according to the ISO7816 international standard as shown in FIG. 1. As shown in Figure 1, the connection terminal of the smart card is generally composed of a total of eight terminals from C1 to C8, in detail, C1 is a power supply terminal (Vcc), C2 is an initialization input terminal (Reset), C3 is the clock terminal (Clock), C5 is the ground terminal (Ground), C6 is the program voltage terminal (Vpp), C7 is the serial data input / output terminal (I / O), and C4 and C8 are unused spare connection terminals (RFU). It is defined.

Traditionally, smart cards have been used in the same form as credit cards, but in recent years, their forms and methods have been diversified to be embedded in popular wireless communication terminals.

In particular, in many wireless communication markets using a mobile communication system, a subscriber identification module card, which is a type of smart card that a user inserts into a wireless communication terminal, is commonly used. Since the identification information, the account information, and the like are encrypted and stored, functions such as safe and convenient user authentication, payment, and payment can be performed through the wireless communication terminal.

Recently, as a more advanced form, a smart card supporting even a contactless function in a wireless communication terminal has been developed to process a user's authentication, a contactless payment such as a traffic card, and a payment in real time.

As such, various wireless communication technologies are being applied for user authentication, payment, and payment using the contactless function of the smart card embedded in the wireless communication terminal, and one of the recently emerging wireless communication technologies is an RF method. It is to use. RF wireless communication technology has already proved its fast processing speed and ease of use, and is widely used in various fields such as access control cards and traffic cards.

In order to make user authentication, payment, and payment by embedding smart card with RF contactless input / output function in wireless communication terminal, antenna should be equipped like plastic transportation card. Due to the small space available for installation, in most cases, a small card of ID-000 standard is used instead of a standard credit card type ID-1 standard. However, it is difficult to embed the antenna in the card itself by using a small size smart card to be embedded in the wireless communication terminal. Therefore, as an alternative, the problem can be solved by embedding the antenna in a wireless communication terminal and connecting two connection terminals of the antenna to an unused spare connection terminal of a contactless smart card with a built-in wireless communication terminal.

However, as described above, the ID-000 standard smart card used in the wireless communication terminal, despite the convenience that can be embedded in the wireless communication terminal, the unused preliminary connection of the contactless smart card embedded in the wireless communication terminal Setting and using a terminal as an input / output unit means that it cannot be used in a specific terminal having a smart card having a specific function using a preliminary connection terminal for another specific purpose and an unused spare connection terminal equipped with a corresponding internal circuit. it means. If the smart card is used in a different type of terminal designed for the terminal to have different electrical characteristics, there may be a malfunction or use of the terminal due to the difference in electrical characteristics. Due to the electric shock from the terminal through the preliminary connection terminal, there is a problem that the smart card can not endure and the internal circuit may be destroyed. Therefore, when the smart card is to be used in other types of terminals, the C1, C2, C3, C5, If the functions of the C6 and the C7 can be normally performed, one wireless communication terminal built-in smart card may be used to safely perform user authentication and payment, payment, or various other services in various other types of terminals.

As already explained, the smart card has the function of each connection terminal defined according to ISO7816 standardized as international standard, and the unused spare connection terminal is specially defined for user convenience, such as an antenna connection terminal for wireless communication. Can be used.

Accordingly, the present invention, when trying to use the smart card for the special terminal set to use the unused spare connection terminal to other various types of terminals, the risk that may occur, that is, in the spare terminal of various terminal types To provide a way to protect the smart card from electric shock or internal damage caused by the difference in electrical characteristics.

The technical core of the present invention is that when the smart card for a special terminal set to use an unused spare connection terminal is used to be mounted on other various types of terminals, a risk that may occur, that is, a spare connection terminal of various types of terminals. The present invention relates to a method of protecting a smart card from electric shock or internal damage caused by a difference in electrical characteristics.

The occurrence of these risks can include two cases:

First, when a small card of ID-000 standard is used in a wireless communication terminal so that the wireless communication terminal itself acts as a contactless card in a contactless application such as a traffic card, the wireless communication terminal does not have an antenna embedded in the card itself. In this case, the antenna embedded in the wireless communication terminal operates by connecting the preliminary connection terminal of the smart card and the wireless communication terminal when the card is installed in the wireless communication terminal. In this contactless application, the six predetermined connection terminals of the smart card need not be used at all, and only two spare connection terminals of C4 and C8 described above are used.

Now we can assume that this ID-000 small card is used in a special terminal for a completely different purpose. This special terminal will generally be able to perform its general functions using the six predefined connection terminals of the smart card, and in special cases two spare connection terminals C4 and C8 will be available. Suppose that it is not intended for contactless applications but may be set for other special functions and the C4 and C8 input and output circuits of this terminal are set based on completely different input and output signals. In this case, when the corresponding smart card of ID-000 standard for the purpose of the non-contact card function using the spare connection terminal is installed in the special terminal for the other purpose assumed above, the six predetermined connection terminals and the spare connection terminal of the smart card The electronic signal of the special terminal internal circuit, which is not desired by the card, is inputted and outputted, and an electric shock may be applied to the electronic chip of the card. In order to prevent such electric shock, the preliminary connection terminals of C4 and C8 at the moment when the six predetermined connection terminals of the smart card start to operate, in particular, the moment that power is supplied through the C1 terminal and the C5 power supply connection terminals. It is necessary to minimize the electric shock by electrically cutting off the circuit of the internal circuit.

The second risk is the case that can occur when installing a special purpose smart card with a built-in circuit for a specific purpose, as well as a contactless application connected to an antenna via a spare connection terminal in many different types of terminals. In other words, when the preliminary connection terminal is set to use the above-mentioned smart card for the special purpose in the ground terminal, the power supply terminal, or any other type of wireless communication terminal which has been set up for electrical signal input / output for a completely different purpose, When the terminal exceeds the limit range or inputs and outputs an unwanted electrical signal through the preliminary connection terminals C4 and C8 of the card, the special smart card is a method of internally disconnecting the circuit connected to the preliminary connection terminals C4 and C8. It is necessary to minimize the electric shock.

The content of the present invention is as described above in detail, but will be described in more detail with reference to the accompanying drawings.

1 is related to the ISO7816 international standard of a smart card. In general, a smart card is composed of eight connection terminals. Each connection terminal has a power supply terminal (Vcc) and C2 is initialized according to the international standard. Input terminal (Reset), C3 is clock terminal (Clock), C5 is ground terminal (Ground), C6 is program voltage terminal (Vpp), C7 is serial data input / output terminal (I / O), and other connection terminal, That is, C4 and C8 are defined as Reserved for Future Use (RFU).

2 is a conceptual diagram in which an external antenna 220 is connected to a wireless communication terminal built-in smart card 200 having an ID-000 standard having a contactless input / output function by using a preliminary connection terminal 210. It may be embedded in a credit card or a transportation card in a plastic form or may be mounted in a terminal body or a battery when embedded in a wireless communication terminal. Therefore, when the wireless communication terminal built-in smart card 200 having a contactless input / output function is inserted into the wireless communication terminal, the preliminary connection terminals 210 C4 and C8 of the smart card are connected to the contacts of the antenna 220 attached to the terminal. It is connected to perform real-time user authentication, payment, and payment by a non-contact method such as RF method by electromagnetic induction method.

3 is a risk that may occur when mounting a smart card having a special circuit to a different type of terminal using a preliminary connection terminal to a special purpose, that is, due to differences in electrical characteristics in various terminal preliminary connection terminals. It is an exemplary view illustrating a method performed in the smart card to protect the smart card from electrical shock or internal damage.

In this exemplary view, two cases will be described as an example.

The first case is the case where it is not necessary to supply power via the C1 and C5 connection terminals to the smart card as in contactless applications (320).

When a user installs a special smart card having only a contactless input / output function through a spare connection terminal on another type of terminal configured for another special purpose (300), each connection terminal of the smart card meets the international standard. Accordingly, when it is connected to each of the contacts of the terminal (310) checks whether the power supply through the C1 and C5 connection terminal (321). In this case, when the smart card receives power from the wireless communication terminal through the C1 and C5 connection terminals, the smart card short-circuits the preliminary connection terminal 340 by the operation of the internal circuit. If there is no power supply through the C1 and C5 connection terminals from the wireless communication terminal, it is checked whether the electrical signal level through the preliminary connection terminal is an electrical signal within a preset limit range (331) and the applied electrical signal is within the limit range. If the specified smart card function (350) and then terminate (360), if the electrical signal applied to the preliminary connection terminal is out of the preset limit range automatically short-circuit (340) the preliminary connection terminal and smart card The execution of the function is terminated 360.

In the second case, if a smart card uses a preliminary connection terminal with a contact input / output function including power supply through the connection terminal (330). In this case, the first method 320 described above cannot be used.

In this case, it is meaningless to check whether there is power supply through the connection terminal, and check whether or not the electric signal level through the preliminary connection terminal is an electric signal within a preset limit range (331). If it is within the range, the specified smart card function is performed (350) and then terminated (360). If the electrical signal applied to the preliminary connection terminal is out of the preset limit range, the preliminary connection terminal is automatically short-circuited in the internal circuit ( 340) and ends the execution of the smart card function (360). According to a special purpose of the card, the preliminary connection terminal may be automatically shorted 340, and then the designated smart card function may be performed 350, and then the execution of the smart card function may be terminated 360.

The process illustrated in FIG. 3 may be implemented in software or may be implemented by hardware circuitry.

4 illustrates a wireless communication terminal 400 and an antenna 220 mounted on the terminal and a built-in smart card, which are configured to be equipped with a wireless communication terminal built-in smart card 200 having a contactless input / output function through a preliminary connection terminal. An exemplary view showing the mounting area 410 and the connection terminals 420.

In the wireless communication terminal 400 configured to mount and use the wireless communication terminal built-in smart card 200 having a contactless input / output function through the preliminary connection terminal, the preliminary connection terminal of the smart card among the connection terminals 420 of the wireless communication terminal. The C4 and C8 connection terminals connected to the 210 are connected to the antenna 220 attached in the terminal, and are connected to the C4 and C8 preliminary connection terminals 210 of the smart card when the built-in smart card is mounted. By using a contactless method such as RF method, the external contactless smart card terminal performs real time user authentication, payment, and payment function.

5 is a preliminary connection terminal 210 of the smart card 200 is equipped with a wireless communication terminal built-in smart card 200 having a contactless input / output function through the preliminary connection terminal 210 to the wireless communication terminal 400 is a wireless communication. Example of the connection between the smart card 200 and the wireless communication terminal 400, which is connected to the antenna 220 mounted on the terminal 400.

When the wireless communication terminal built-in smart card 200 having a contactless input / output function through the preliminary connection terminal is mounted on the wireless communication terminal 400, the connection terminals 500 of the respective smart cards are connected to the terminal 400. In particular, C4 and C8 210 which are connected to the 420, respectively, and the preliminary connection terminals of the smart card are connected to the connection terminal 420, which is connected to the antenna 220 mounted in the terminal of the corresponding terminal 400; It is connected to perform in real time user authentication, payment, and payment functions by a non-contact method such as an RF method by an electromagnetic induction method.

6 shows a smart card when the preliminary connection terminal 660 is mounted on the wireless communication terminal 400 for which the preliminary connection terminal 660 is set for another special purpose through the preliminary connection terminal 620. It is an exemplary view for explaining an internal circuit short circuit for protecting (600).

When each connection terminal 500 of the smart card 600 is connected to each contact point of the wireless communication terminal 400 according to the international standardized standard, the wireless communication terminal 400 through the connection terminals C1 and C5 630. Check the power supply from). At this time, when an unexpected electrical signal or an electrical signal exceeding a limit range is applied from the wireless communication terminal 400 through the connection terminals C1 and C5 630 of the smart card 600, the internal circuit of the smart card 600 Is a preliminary connection terminal on the smart card 600 side which automatically connects with the connection terminals C1 and C5 630 and the C4 and C8 connection terminals 640 of the wireless communication terminal 400 by the operation of the short-circuit control unit 610. C4 and C8 620 are electrically shorted.

In spite of its convenience and mobility, a smart card with a built-in wireless card having a conventional contactless input / output function embedded in a wireless terminal for real-time user authentication, payment, and payment, has a different kind of use of a spare terminal for another specific purpose. When mounted on the terminal, there is always the possibility of damage to the smart card due to electric shock that is beyond the limit applied through the preliminary connection terminal. Therefore, when a user wants to use a wireless communication terminal built-in smart card having a contactless input / output function on any terminal, and there is a difference in electrical characteristics between the smart card and the spare connection terminal of the terminal, the inside of the smart card spare connection terminal Preventing damage to the smart card by breaking the circuit and stopping the function or by performing only 6 connection terminals specified in the ISO7816 international standard. It is possible to expect the effect of preventing user authentication and payment, payment or other various services. The contactless smart card application in such a wireless communication terminal is an example of the application of the present invention, and various other methods using a preliminary connection terminal. Seen in the case of smart cards By applying a name and prevent damage to the smart card in the terminal, which has a special pre-connection terminal, developed for other purposes, and it is possible to increase the availability.

1 is a layout view of a smart card connection terminal defined in the ISO7816 international standard

2 is a conceptual diagram of a connection between a preliminary connection terminal and an external terminal antenna of a smart card

3 is an internal algorithm flow chart for protecting a smart card from electric shock from an external terminal through a spare connection terminal

4 is a diagram illustrating an example of a wireless communication terminal and a connection terminal thereof prepared for use by mounting a wireless communication terminal built-in smart card.

FIG. 5 is a diagram illustrating a connection between a smart card and a terminal antenna used in a wireless communication terminal. FIG. 6 is a diagram illustrating an internal circuit for protecting a smart card from an electric shock transmitted from a wireless communication terminal.

(Explanation of symbols for the main parts of the drawing)

C1: Power Supply Terminal (Vcc) C2: Initialization Input Terminal (Reset)

C3: Clock Terminal C5: Ground Terminal

C6: Program voltage terminal (Vpp) C7: Serial data input / output terminal (I / O)

C4, C8: Reserved for Future Use (RFU)

200: Smart card of ID-000 standard with contactless input / output function

210: contact point between the preliminary connection terminal of the smart card and the external terminal antenna

220: antenna (RF antenna)

400: wireless communication terminal

410: ID-000 standard smart card mounting area in the wireless communication terminal

420: wireless communication terminal connection terminal for connection with smart card of ID-000 standard

500: Smart card connection terminal of ID-000 standard for connection with terminal

600: Smart card of ID-000 standard with short circuit control in the internal circuit

610: short circuit control to protect the smart card from electrical shock

620: preliminary connection terminals C4 and C8 of the ID-000 standard smart card

630: connection terminals C1 and C5 that receive power from a wireless communication terminal among smart card connection terminals

640: connection terminal connected to RF antenna among wireless communication terminal connection terminals for connection with ID-000 standard smart card

Claims (3)

In the smart card, It is electrically connected to C1, which is a power supply terminal (Vcc), C5, which is a ground terminal, and C4 and C8, which are preliminary connection terminals (RFU), and is preset through the connection terminals C1 and C5 from a wireless communication terminal. And a short circuit controller for protecting the smart card by electrically shorting the preliminary connection terminals C4 and C8 and the wireless communication terminal when an abnormal signal exceeding a limit is applied. In the smart card protection method for the abnormal signal generated by the wireless communication terminal with the smart card mounted on the wireless communication terminal, The short-circuit control unit checks whether the power supply terminal V1 and the ground terminal C5 have received an electrical signal through the connection terminal of the wireless communication terminal; Determining whether the supplied electrical signal is an abnormal signal when the power supply terminal V1 and the ground terminal C5 are supplied with power; In response to the determination result, the short-circuit control unit protects the smart card by electrically shorting C4 and C8 which are preliminary connection terminals (RFU) and the wireless communication terminal; And If the result of the determination is not an overload, causing the short circuit controller to perform a function of each terminal; Smart card protection method for the abnormal signal comprising a. delete