KR20040018038A - Noncontact smart card for switching multi-types and method of the same and a recording means - Google Patents

Abstract

PURPOSE: An intelligent card supporting various non-contact types, and an operating method and a recording medium thereof are provided to support various non-contact types by being automatically switched to an A or a B-type depending on the type of a card reader. CONSTITUTION: An I/O(Input/Output) part(110) transmits/receives voltage and data needed from operation and communication by a carrier wave applied from the card reader(200). A data storing part(130) stores a program generating an instruction format fit to each type in order to be compatible with the instruction of the card reader, a collision prevention algorithm of each type, and the modulated/demodulated data of each type. A modulation/demodulation adjusting part(140) automatically adjusts a modulation/demodulation method processed on the I/O part to each type by linking with a data analysis result of the card reader applied through the I/O part. A CPU(150) checks the type set to the card reader by analyzing the instruction data applied from the I/O part, sets the type of the card reader to the matched type again, and processes the instruction data by linking with the data storing part.

Description

Intelligent card that supports various types of contactless methods, its operation method and recording medium {NONCONTACT SMART CARD FOR SWITCHING MULTI-TYPES AND METHOD OF THE SAME AND A RECORDING MEANS}

The present invention relates to an intelligent card that supports various types of contactless methods, an operation method thereof, and a recording medium thereof, and more specifically, according to the type of the card reader in the intelligent card that performs data communication. The present invention relates to an intelligent card that supports various types of contactless methods that enable automatic switching to data, an operation method thereof, and a recording medium thereof.

As is well known, due to the recent development of information and communication technology, the development of information providing technology that provides real-time information to various subscribers through at least one host server through a remote data communication network is actively underway.

Based on this, various electronic money has emerged in recent years, and electronic money is a new concept of money to replace cash in the information society. Coins and banknotes are bulky and heavy, so they are inconvenient to use, so as the information society develops, the emergence of electronic money is inevitable.

The characteristics of such electronic money are as follows. First, it should be easy to carry. Second, the third party must not know who bought what at what store. Third, counterfeiting should be difficult.

Electronic money is divided into IC card type and network type according to how the monetary value is stored. IC card type electronic money is called electronic wallet type electronic money. The bank deposit data is transferred to the IC card electronically and paid like cash through the terminal. Such IC card type electronic money cannot be used in e-commerce transactions unless it is compatible with the network type.

Networked electronic money is stored in virtual banks or on customers' computers connected to the Internet. Types include cybercoins and ecash. In particular, eCash was issued by Dutch DigiCash since October 1994 and is the first electronic money to be paid over the Internet. To use ecache, you first use ecache client software to find ecache at your bank, store it on your computer, buy certain items from a store that sells it, and pay for it. The cash is cashier, so the store can offer goods or services right away.

In recent years, a card has appeared to have a dedicated function (for example, a bus-only card, a debit card, a credit card, etc.) according to the payment form of the electronic wallet-type electronic money.

A typical example of such an IC card is a smart card that is pre-stored credit card information. When the smart card is roughly classified into three types, the first is a memory type smart card. The memory type smart card is a smart card that does not have a built-in microprocessor, and includes a security logic in addition to a memory mainly used in a field that can be treated as a security, such as a public telephone card or a purchase right. There is also a built-in memory for pure data storage, such as health insurance card, and mainly uses EEPROM as the memory.

The second is a smart card with a built-in microprocessor. This smart card is a card that can perform advanced functions such as judgment, operation, and data protection by embedding microprocessor and memory.

Third is the interactive smart card. This smart card is a smart card that can carry information interactively by embedding microprocessor, memory, I / O protocol and application program.

Therefore, since the memory card has only a memory for storing service information, data communication with the card terminal is not possible. As a result, the service information stored in the memory card can only be read by the card terminal. However, the smart card has a central processing unit in addition to the memory, it is possible to register, change and delete the service information. Of course, the central processing unit accesses the memory at this time because it is possible to supply various control signals from an external card terminal. In addition, ISO.7816 / 1 ~ This is because it can communicate with the card terminal according to the recommended protocol specified in 3 or 11.11 of the GSM standard.

1 is a view showing the configuration of a conventional smart card. The memory unit 16 uses flash, mask ROM, and E2PROM for long-term information storage in addition to RAM for temporary information storage. Memory can be divided into program memory and data memory in terms of its purpose. At this time, a program for controlling the overall operation of the smart card is stored in the program memory, and the data memory stores various service information. The reason why the flash or EPIROM is used is that the smart card is kept separate from the card reader (not shown). In other words, since the flash or YPIROM is a non-volatile memory, it is possible to maintain the information of the previous state as it is, even when no voltage is supplied, and also to erase the unnecessary information and to read the necessary information. Because you can write. The CPU 14 may communicate serial data asynchronously with the card reader through the input / output unit 15. Thus, the CPU 14 may read the service information of the memory unit 16 through the input / output unit 15 and transmit the service information to the card reader, and transmit the service information received from the card reader to the memory unit 16. Can be stored in In addition, the central processing unit 14 transmits / receives data through the input / output unit 15 or accesses a specific address related to data processing (reading and writing) in the memory unit 16. Control program information is stored, and all service information for the card user, the main issuer and the sub-issuer are stored.

Currently, these smart cards are roughly classified into A-type and B-type according to the type of protocol used as the international standard. Both types use different modulation / demodulation methods to input and output extracted data. Therefore, a smart card reader that can be used electrically is fixed. In other words, even in the case of a smart card reader, a reader usable in the A-type and a reader usable in the B-type are distinguished from each other.

Therefore, the A-type smart card and its card reader, and the command data between the B-type smart card and its card reader are also completely different in configuration, and are provided in a single frame with an anti-collision algorithm to prevent data collision. The structure of the header is also different. Therefore, there is a problem that the A-type smart card can be used only in a terminal capable of reading the smart card information.

SUMMARY OF THE INVENTION The present invention has been made in view of the above-described state of the art, and enables various types of non-contact types to automatically switch between A-type and B-type data according to the type of card reader in an intelligent card performing data communication. The purpose of the present invention is to provide an intelligent card, a method of operating the same, and a recording medium supporting the same.

1 is a block diagram showing a configuration of an intelligent card that supports a certain type of contactless method according to a conventional embodiment,

2 is a block diagram showing the configuration of an intelligent card that supports various types of contactless methods according to an embodiment of the present invention;

3 is a signal flow diagram illustrating a method of operating an intelligent card that supports various types of contactless methods according to an embodiment of the present invention.

* Description of the symbols for the main parts of the drawings *

100: intelligent card, 110: input / output,

120: side / demodulation unit, 130: data storage unit,

140: side / demodulation adjustment unit, 150: central processing unit.

In order to achieve the above object, according to a preferred embodiment of the present invention, an intelligent card that transmits and receives various command data and processing result data for a card reader whose instruction formatting is preset to a specific type (A or B type) and the corresponding card reader. An input / output unit comprising: an input / output unit for receiving a signal required for transmitting / receiving voltage and data necessary for operation and communication by a carrier wave applied from the card reader; A data storage unit for storing a command format generation program for each type, an anti-collision algorithm for each type, and data for each type of modulation / demodulation method so as to be compatible with the command of the card reader; A modulation / demodulation adjustment unit for automatically adjusting the modulation / demodulation method that can be processed by the input / output unit for each type in association with the data analysis result of the card reader applied through the input / output unit; Analyzes the command data applied from the input / output unit to determine what type of card reader is preset, resets the type to match the type of the card reader, and processes the command data of the type in association with the data storage unit. And a central processing unit for driving a collision prevention algorithm of the type and generating a frequency control signal of the type in the modulation / demodulation adjustment unit to control the modulation / demodulation process in the modulation / demodulation method of the type. An intelligent card supporting various types of contactless methods is provided.

Preferably, the input / output unit includes a modulation / demodulation unit configured to switch various types of data to be transmitted to the card reader according to control signals applied from the modulation / demodulation adjustment unit. There is provided an intelligent card that supports various types of contactless methods, further comprising.

Preferably, the central processing unit performs a process of reconfiguring to maintain or change the type of the intelligent card in a predetermined state depending on whether the command data of the card reader applied through the input / output unit is interpretable data. There is provided an intelligent card that supports various types of contactless methods.

On the other hand, the present invention is the process of starting the power supply in accordance with the carrier applied from the card reader for the intelligent card in the state that the intelligent card and the card reader is basically set to a specific type (A or B type); Performing an initialization process of the intelligent card as a preset type due to power driving; Transmitting a command for requesting a card initial value of a type preset to the card reader to an intelligent card; Determining, by the intelligent card, what type of command the command sent from the card reader is; Automatically resetting the intelligent card to another type when the command data transmitted from the card reader is uninterpretable data; Determining, by the card reader, whether an initial value is transmitted from the intelligent card (100) within a preset time; If it is determined that the normal instruction is due to the match of the instruction format between the card type and the card reader, transmitting an initial value of the corresponding type card; Transmitting, by the card reader, an anti-collision execution request command to the intelligent card according to the type; Driving an anti-collision algorithm of a preset type; Transmitting, by the card reader, a preset type command to the intelligent card; Extracting only the command itself by analyzing the received command by type of the intelligent card; Processing the extracted command by the intelligent card; Transmitting, by the intelligent card, a command processing result value according to a preset format to a card reader; There is provided an intelligent card operating method that supports various types of contactless methods, wherein the card reader is configured to receive a corresponding processing result.

Preferably, the process of determining, by the intelligent card, what type of command is the command transmitted from the card reader, is the process of determining whether the intelligent card is of the same type or a different type according to whether the intelligent card can be interpreted. Provided is an operating method of an intelligent card that supports various types of contactless methods.

Preferably, after the card type reset of the intelligent card is performed, the intelligent card is provided with a method of operating an intelligent card that supports various types of contactless methods, wherein the intelligent card further includes a process of recycling a command.

Preferably, the card reader may further include a step of returning to a process of requesting a card initial value of a preset type when the initial value is not transmitted from the intelligent card. The operation method of supporting intelligent card is provided.

Preferably, a method of operating an intelligent card that supports various types of contactless methods, further comprising automatically adjusting a modulation / demodulation method upon modulation / demodulation according to the type of card reader to which the intelligent card corresponds. Is provided.

Preferably, the process of determining, by the intelligent card, what type of command is the command transmitted from the card reader, further comprising determining whether the type matches according to whether the command is received within a preset time. Intelligent card operating method that supports various types of contactless features.

On the other hand, the present invention in the card reader and the corresponding card reader that the instruction formatting is set to a specific type (A or B type), and analyzes the preset type in the instruction format of the card reader, intelligent according to the type of the card reader A recording medium is provided, characterized in that an algorithm for automatically switching the data type of the card and the format type of transmission / reception to match the card reader is stored.

EMBODIMENT OF THE INVENTION Hereinafter, this invention is demonstrated in detail with reference to drawings.

2 is a block diagram illustrating a configuration of an intelligent card that supports various types of contactless methods according to an embodiment of the present invention.

Referring to this, the intelligent card 100 supporting the various types of contactless methods according to an embodiment of the present invention is a voltage and data required for operation and communication by a carrier wave applied from an external card reader 200. As a result of inputting / outputting a signal required for transmission / reception, the intelligent card 100 is provided with an input / output unit 110 for transmitting and receiving voltage and various data to the card reader 200 as described above.

The input / output unit 110 includes a modulator / demodulator 120 that performs data modulation and demodulation processing to input / output data to and from the card reader 200. The modulation / demodulation unit 120 receives power and performs modulation / demodulation processing for each modulation / demodulation method for each card type (A-type, B-type). At this time, the A-type and B-type classified as the type of the intelligent card 200 are defined by the international standard.

In addition, the intelligent card 100 supporting various types of contactless methods according to an embodiment of the present invention has data consisting of flash or mask ROM, IP ROM, etc. for long-term information storage in addition to RAM for temporary information storage therein. A storage unit 130 is provided to store various card information. In particular, in the present invention, the data storage unit 130 includes a command format generation program for each type, an anti-collision algorithm for each type, and modulation / demodulation processing data for each type. Is stored.

Meanwhile, the intelligent card 100 supporting various types of contactless methods according to an embodiment of the present invention may be linked to data analysis of the card reader 200 applied through the input / output unit 110. The modulation / demodulation control unit 140 for automatically adjusting the modulation / demodulation method that can be processed by the modulation / demodulation unit 120 provided in the output unit 110 for each type is provided.

In addition, the intelligent card 100 that supports various types of contactless methods according to an embodiment of the present invention by analyzing the command data applied from the input / output unit 110, the predetermined card reader 200 of any type Determine the recognition, process the instruction data of the type to match the type of the card reader 200, drive a collision prevention algorithm of the type, generate a control signal to the modulation / demodulation adjustment unit 140, and The central processing unit 150 for controlling the type modulation / demodulation process is provided.

To this end, the central processing unit 150 has a command data generation algorithm and a collision avoidance algorithm of a specific card type (eg, B-type) previously generated, the command applied through the input / output unit 110 The data is analyzed to determine what type of card reader 200 is determined according to the determination of whether the data is interpretable.

That is, when the intelligent card 100 is set as a B-type card, if the command is received from a specific card reader 200 set to be capable of generating commands for the A-type card, the interpretation is impossible. In this case, the central processing unit 150 determines that the corresponding card reader 200 is set to an A-type, and drives various A-type algorithms pre-stored in the data storage unit 130 so as to provide a suitable instruction format. Make this possible.

On the other hand, when the intelligent card 100 is set as an A-type card, when the command is received from a specific card reader 200 in which the command format for the A-type card is set, the interpretation is possible. In this case, the central processing unit 150 interprets the command data transmitted from the corresponding card reader 200 and performs the processing.

On the other hand, when the intelligent card 100 is set as an A-type card, if the command is received from a specific card reader 200 set to be capable of generating commands for the B-type card, the interpretation thereof becomes impossible. Therefore, in this case, the central processing unit 150 determines that the card reader 200 is set to the B-type, and drives various B-type algorithms pre-stored in the data storage unit 130 to form an appropriate command format. Make this possible.

At this time, since the command data generation algorithm and the collision avoidance algorithm are known contents according to each type in the international standard, detailed description thereof will be omitted.

The function and operation of an intelligent card supporting various types of contactless methods according to an embodiment of the present invention having the above-described configuration will be described in detail with reference to the accompanying drawings.

3 is a signal flow diagram illustrating a method of operating an intelligent card that supports various types of contactless methods according to an embodiment of the present invention.

First, in the state in which the intelligent card 100 supporting various types of contactless methods according to an embodiment of the present invention is basically set to the B-type, and the card reader 200 is set to the A-type, the intelligent card ( The driving of the power is started according to the carrier wave applied from the card reader 200 with respect to 100 (first step: ST-1) (second step: ST-2).

In this case, the intelligent card 100 may be preset as an A-type or a B-type, and the card reader 200 may also be preset as an A-type or a B-type, and information about the set type may be provided. Is stored in memory by default. However, in the present invention, the intelligent card 100 and the card reader 200 have already been set as an example of B-type and A-type respectively. If the intelligent card 100 is set to the A-type and the card reader 200 is set to the B-type, the command processing for the card information is performed without changing the type.

Due to the power drive, the initialization process of the intelligent card 100 is made of B-type (third step: ST-3). At this time, since the intelligent card 100 has a command format in A-type, the intelligent card 100 transmits a command requesting the initial value of the A-type card to the intelligent card 100 (ST-4). At this time, the initial value means an initial value for each type defined in the international standard, which is different for each type (A, B).

The operation of the intelligent card 100 branches to processing routines corresponding to the data according to the format of the data transmitted from the card reader 200, and then goes back to the first position and waits for the next data.

That is, the intelligent card 100 waiting to receive the command transmitted from the card reader 200 determines what type of command the requested command is (step 5: ST-5) (sixth). Step: ST-6). In other words, the intelligent card 100 determines whether the transmitted command is interpretable data.

Accordingly, when the command data transmitted from the card reader 200 is uninterpretable data, the intelligent card 100 resets the preset type by changing the preset type to A-type (eighth step: ST-8). . The intelligent card 100 returns to the fifth step ST-5, which is a command receiving step.

Preferably, the intelligent card 100 proposes two methods in the present invention as a method for analyzing the type of the transmitted command. The first is to determine whether the received command can be interpreted, and the second is to determine whether the command is authorized within a certain time. If the types do not match, there may be a situation in which the intelligent card 100 does not receive any command within a predetermined time. Therefore, when the preset time is exceeded, if the intelligent card 100 does not receive a command, the intelligent card 100 changes the type.

At this time, the card reader 200 determines whether the initial value is transmitted from the intelligent card 100 within a preset time, and is initialized within the preset time due to a reset process of a card type from the intelligent card 100. If no value is transmitted, the card reader 200 returns to the fourth step ST-1 requesting the initial value of the A-type card.

The intelligent card 100 returns to step 5 and recycles a sixth step of receiving a second command for the initial value request from the card reader 200 and determining whether the command is a normal command. If it is determined that the normal command is due to the match of the command format between the card type and the card reader 200, the initial value of the A-type card is transmitted (step 9: ST-9).

In the state where the intelligent card 100 is reset to the type corresponding to the card reader 200 (step 10: ST-10), the collision prevention transmitted from the card reader 200 in accordance with the corresponding type is prevented. According to the execution request instruction (step 11: ST-11), the collision avoidance algorithm is driven for each type (step 12a: ST-12a) (step 12b: ST-12b). At this time, since the collision avoidance algorithm is a known algorithm defined by the international standard, its detailed description will be omitted.

When driving of the collision avoidance algorithm is completed in the intelligent card 100, the card reader 200 transmits an A-type command to the corresponding intelligent card 100, and the intelligent card 100 receives the command ( Step 13: ST-13).

At this time, the content of the command is the same for each type, but since the command format is different, the format for interpreting the command for each type of intelligent card 100 is fixed. The present invention allows the format of such data to be automatically switched for each type.

Accordingly, the intelligent card 100 analyzes the received command by type to extract only the command itself (step 14a: ST-14a) (step 14b: ST-14b), and processes the extracted command (fifteenth) Step: ST-15).

After the processing of the command is completed, the intelligent card 100 formats the result according to the preset format (step 16: ST-16), and formats the processing result (step 17a: ST-17a) (step 17b). : ST-17b), and transmits the processing result formatted to the corresponding type (step 18a: ST-18a) (step 18b: ST-18b). That is, when the preset value is A-type, the intelligent card 100 formats the processing result in the A-type and transmits the processing result to the card reader 200, and the card reader 200 receives the processing result. (Step 19: ST-19).

In addition, although not shown in the drawings, an intelligent card and a method of operating thereof supporting various types of contactless methods according to an embodiment of the present invention may vary depending on the type of the card reader 200 corresponding to the intelligent card 100. Automatically switch the modulation / demodulation method in demodulation. This is achieved by generating an adjustment control signal to the modulation / demodulation adjustment unit 140 according to the type of the card reader 200 determined by the central processing unit 150 provided in the intelligent card 100.

On the other hand, the intelligent card that supports various types of contactless methods according to an embodiment of the present invention, its operation method and its recording medium are not limited to the above-described embodiments but various modifications without departing from the technical gist thereof. This is possible.

As described above, the intelligent card supporting the various types of contactless methods and the operation method thereof and the recording medium thereof according to the present invention are adapted to match the terminal format type such as a card reader to which a single card preset to a specific card type is dealt with. Since the format method, the collision avoidance algorithm, and the modulation / demodulation method are compatible with other types of automatic switching, the inconvenience of having a plurality of cards is reduced, which is convenient for use and economical.

Claims (10)

In an intelligent card for transmitting and receiving various command data and processing result data for a card reader whose instruction formatting is preset to a specific type (A or B type) and the card reader, An input / output unit for receiving a signal required for transmitting / receiving voltage and data necessary for operation and communication by a carrier wave applied from the card reader; A data storage unit for storing a command format generation program for each type, an anti-collision algorithm for each type, and data for each type of modulation / demodulation / demodulation method so as to be compatible with the command of the card reader; A modulation / demodulation adjustment unit for automatically adjusting the modulation / demodulation method that can be processed by the input / output unit for each type in association with the data analysis result of the card reader applied through the input / output unit; Analyzes the command data applied from the input / output unit to determine what type of card reader is preset, resets the type to match the type of the card reader, and processes the command data of the type in association with the data storage unit. And a central processing unit for driving a collision prevention algorithm of the type and generating a frequency control signal of the type in the modulation / demodulation adjustment unit to control the modulation / demodulation process in the modulation / demodulation method of the type. Intelligent card that supports various types of contactless method, characterized in that. The apparatus of claim 1, wherein the input / output unit is configured to switch various types of data to be transmitted to the card reader according to control signals applied from the modulation / demodulation adjustment unit. Intelligent card that supports various types of contactless method, characterized in that / demodulation unit is further included. The method according to claim 1, wherein the central processing unit resets the intelligent card to maintain or change the type of the intelligent card according to whether or not the command data of the card reader applied through the input / output unit is interpretable data. An intelligent card that supports various types of contactless methods, characterized in that for performing. With the intelligent card and card reader set to any one specific type (A or B type), Starting power supply according to a carrier applied to the intelligent card from the card reader; Performing an initialization process of the intelligent card as a preset type due to power driving; Transmitting a command for requesting a card initial value of a type preset to the card reader to an intelligent card; Determining, by the intelligent card, what type of command the command sent from the card reader is; If it is impossible to interpret the command, automatically resetting the intelligent card to another type; Determining, by the card reader, whether an initial value is transmitted from the intelligent card within a preset time; If it is determined that the normal instruction is due to the match of the instruction format between the card type and the card reader, transmitting an initial value of the corresponding type card; Transmitting, by the card reader, an anti-collision execution request command to the intelligent card according to the type; Driving an anti-collision algorithm of a preset type; Transmitting, by the card reader, a preset type command to the intelligent card; Extracting only the command itself by analyzing the received command by type of the intelligent card; Processing the extracted command by the intelligent card; Transmitting, by the intelligent card, a command processing result value according to a preset format to a card reader; And the card reader is configured to receive a corresponding processing result. The method of claim 4, wherein the determining of the type of command by the intelligent card from the card reader is based on whether the intelligent card can interpret the transmitted command. Intelligent card operation method that supports the various types of contactless method, characterized in that the process of judging. 5. The method of claim 4, wherein after the card type reset of the intelligent card is performed, the intelligent card further includes a process of recycling the intelligent card to a command receiving process. The method of claim 4, wherein the card reader further includes a step of returning to a process of requesting a card initial value of a preset type when the initial value is not transmitted from the intelligent card. How to operate an intelligent card that supports a contactless method. [5] The intelligent card of claim 4, further comprising automatically adjusting a modulation / demodulation method at the time of modulation / demodulation according to the type of card reader to which the intelligent card corresponds. Operating method. The method of claim 4, wherein the intelligent card determines whether the command is received within the predetermined time based on whether the command is received within a predetermined time. Intelligent card operating method that supports various types of contactless method, characterized in that included. In the card reader and the corresponding card reader which preset instruction formatting to a specific type (A or B type), And an algorithm for analyzing a predetermined type according to a command format of the card reader and automatically switching a format type of data processing and transmission / reception of an intelligent card according to the type of the card reader to match the card reader.