• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    PURPOSE: A payment card authorizing and remaining data managing system is provided to mitigate load of an equipment cost for a payment card member shop. CONSTITUTION: A payment card authorizing and remaining data managing system comprises a card authorization terminal(20), a host(30) of a card VAN system and a sub-system(40) of a payment card main computer. The card authorization terminal(20) is a conventional credit authorization terminal installed at a credit card member shop. The host(30) is an equipment for a card VAN business proprietor, and relays a credit card, an authorization request to a payment card and response data related thereto. The host(30) is connected to a plurality of hosts(100) of credit card companies, and is connected to the sub-system(40) through a private line or a line exchange network. The sub-system(40) of a payment card main computer includes a main computer(42), a database(44) and an automatic response sub-system(46). The database(44) stores a password, an identification number, and data, associated with nominal value, remaining value and dealing particulars, which are related to all payment cards issued by a corresponding payment card issuing company. The main computer(42) compares identification number and charge data with the identification number and remaining data stored in the database(44).
    公开号:KR20000058225A
    申请号:KR1019990015282
    申请日:1999-04-28
    公开日:2000-10-05
    发明作者:안재신
    申请人:김석범;기프트피디 주식회사;
    IPC主号:
    专利说明:

    Method for managing authentication and balance data of prepaid card and system for same {Method and System for Authenticating Pre-paid Card and Supervising Balance
    The present invention relates to a prepaid card system, and more particularly, to a data structure and a card authentication system recorded on a prepaid card.
    A prepaid card is a kind of gift certificate, and refers to a card that is freely used within the issuance amount after being prepaid to the customer with a certain issuance amount recorded. Such prepaid cards are usually made of plastic or polyethylene terephthalate (PET), and generally have a width of about 54 mm and a width of about 85 millimeters (mm) like a credit card, with rounded corners. Is produced. On the back side of the card, a magnetic strip is applied in parallel to one side in the longitudinal direction. In order to be freely operated as a gift certificate, the magnetic strip is encrypted and recorded on the magnetic strip. Such a conventional prepaid card is usually issued and distributed individually by a department store, a communication service company, or a multi-store direct chain store.
    By the way, the conventional prepaid card can be used only where a dedicated terminal separate from the terminal for payment by credit or debit card is installed. For example, Japanese Patent Application Publication No. 1996-2048 filed on January 26, 1996, entitled "Prepaid Card Reader / Writer Security Processing Method," describes a method of reading and writing a prepaid card for security processing in such a dedicated terminal. It is open to the public. As a result, the necessity of a high-priced prepaid card dedicated terminal is required separately from the existing credit card authorized terminal, so the stores handling the prepaid card bear the economic burden of purchasing the terminal. For purchasers, the prepaid card that he or she has pre-paid or gifted from others is limited to where the card can be used, for example, where a dedicated terminal is installed, such as the prepaid card issuer or its agent or affiliated stores. It is difficult to use usefully. Such restrictions on the place of use will act as an obstacle to the mass dissemination of prepaid cards.
    On the other hand, since the information stored in the magnetic strip can be easily read out and rewritten so that the recorded information can be easily forged or tampered with, the conventional prepaid card has a large lack of security. In order to solve this disadvantage, some prepaid cards, especially prepaid cards issued by telecommunications service providers, provide a unique number or password to the buyer when purchasing the card instead of recording the card's unique number on a magnetic strip. Is adopting the method. However, such a card is inconvenient in that a user must enter a card number or a password by using a keypad. You can also think of creating a prepaid card in the form of an IC card or engraving a hologram like a credit card on a prepaid card to reduce the possibility of counterfeiting and tampering. Not suitable for many prepaid cards.
    The present invention has been made to solve the above problems, can reduce the burden of equipment costs of prepaid card merchants, reduce the unexpected damage of the card holder or issuer due to the forgery or tampering of the card, prepaid card It is a technical task to provide a prepaid card authentication and balance data management method that can facilitate mass distribution of services.
    Figure 1a is a front view of the prepaid card according to the present invention.
    Figure 1b is a rear view of the prepaid card according to the present invention.
    2 is a view showing an example of a data format recorded on a magnetic strip in the prepaid card according to the present invention.
    3 is a schematic diagram of one embodiment of a prepaid card authentication and balance management system for implementing the method of the present invention.
    4 is a diagram illustrating an example of a card approval terminal CAT.
    5 illustrates a prepaid card authentication procedure in accordance with the present invention.
    In order to achieve the above technical problem, according to the present invention, the balance information of each prepaid card is stored in the database of the host computer of the card issuer or the management company without being recorded on the prepaid card. The prepaid card also records a random number generated by a random number generator or data encrypted with the random number, independent of the serial number embossed on its surface. These random or encrypted random numbers are also stored in the database of the host computer. The random number or the encrypted random number stored in the prepaid card at the time of purchase of the product is read by a conventional credit card authorization terminal and transmitted to the host computer through the communication network together with the purchase price of the product. The host computer compares the random number or the encrypted random number transmitted from the credit card authorization terminal with that stored in the database, and if it is determined to be the same as the result of the comparison, transmits an authorization message to the credit card authorization terminal and then stores the balance stored in the database. Will be deducted.
    Hereinafter, with reference to the accompanying drawings will be described in detail a preferred embodiment of the present invention.
    1A and 1B show the form of a prepaid card according to the present invention. The prepaid card 10 is made of plastic or PET and has a square shape with rounded corners having a width of about 54 mm at a length of about 85 millimeters (mm). On the surface of the card is a design printed with the issuer's logo, and the card's serial number is embossed. On the back side of the card, at least one line of magnetic strip 12 is applied in the longitudinal direction parallel to the upper side, where the card unique number is recorded which is separate from the serial number. In particular, in the present invention, when the magnetic strip of the prepaid card is manufactured in the same form as is generally used for a credit card, the card unique number is a track in which information on the credit card among tracks 1 to 3 of the magnetic strip is usually stored. Preferably stored in 2.
    2 shows one embodiment of a data format written to a magnetic strip. The data recorded includes the card issuer identification number (ID), card unique number and check bits. In a preferred embodiment, the card issuer identification number (ID) is 8 bytes and represents the unique code of the company that issued the prepaid card. The card unique number has a size of 10 bytes and is a random number generated by the random number generator program at the time of card issuance. Therefore, the cards unique numbers are completely different between cards which have consecutive serial numbers indicated on the surface of the card. Therefore, even if a unique number of any one card is read for the purpose of modulation, the cards and serial numbers of the consecutive cards are consecutive. Predicting a unique number becomes almost impossible. For example, in the case where each byte represents one decimal place in the 10-byte card unique number, the hit ratio at the time of arbitrarily predicting the unique number of any one card is 1 / 10,000,000,000. On the other hand, the check bit has a size of 2 bytes and is used to validate the write data. In addition, additional data may be recorded according to a card issuer or a VAN operator's choice of relaying and transmitting authentication data.
    Figure 3 shows the configuration of a prepaid card authentication and balance management system for implementing the method of the present invention. The system for authentication and balance management includes a card approval terminal 20, a host 30 of the card VAN system, and a prepaid card main computer subsystem 40.
    As the card authorization terminal 20, a conventional credit authorization terminal (CAT) installed in credit card merchants is used. In particular, when the magnetic strip of the prepaid card is formed in the same form as is generally used for credit cards as described above and the card unique number is stored in track 2 as in credit cards, the card approval terminal 20 There is no need for a separate head for the prepaid card, just a simple change to the operating program.
    4 shows an example of such a CAT. The exterior of the CAT has a substantially rectangular parallelepiped shape, and on one side thereof, a slot 22 is formed for swiping the card to read data recorded on the magnetic strip of the card. Inside the upper surface of the CAT, a keypad 24 is provided for inputting the type of service of a merchant's stock price or a product sales price. In addition, a large amount of sales slip form is loaded outside the upper surface of the CAT, and the sales slip 26 is issued according to the card approval result. In the case of a request for authentication of a specific prepaid card in connection with a commodity transaction, the merchant owner presses the "prepaid card" key on the keypad 24 and inserts the card into the slot 22 to swipe. Then, the payout is input using the numeric keys of the keypad 24 and the "send" button on the keypad 24 is pressed. At this time, an authentication request message including the card unique number and the product price data is transmitted to the card VAN host 30.
    The card VAN host 30 is a device of a card VAN operator and relays an authorization request for a credit card and a prepaid card and response data thereto. In particular, in the preferred embodiment of the present invention, since the prepaid card authentication and balance management system is built on the infrastructure of the existing credit card authorization system, the card VAN host 30 is connected to a plurality of credit card company hosts 100. Connected. The card VAN host 30 is also connected to the prepaid card main computer subsystem 40 via a dedicated circuit or via a circuit switched network.
    The prepaid card main computer subsystem 40 includes a main computer 42, a database 44, and an answering machine subsystem (ARS) 46. The database 44 stores data about serial numbers, unique numbers, face values, balances, and transaction details for all prepaid cards issued by the prepaid card issuer. When there is a card authentication request from the CAT 20 via the card VAN host 30, the main computer 42 stores the unique number and the product price data included in the authentication request message and the unique number and balances stored in the database 44. After each comparison, an authentication response message is transmitted to the CAT 20 via the card VAN host 30. If the unique number included in the authentication request message is the same as that stored in the database 44 and the balance of the card is greater than the amount of the payout included in the authentication request message, the host computer 42 approves the use of the card. Subtracts the payout amount from the balance stored in the database 44 and stores the deducted amount as a modified balance again in the database 44. At this time, the transaction history may be stored together. On the other hand, the automatic answering subsystem 46 is connected to the main computer 42, and allows the prepaid card holder to query the balance of his card through the telephone.
    5 shows a prepaid card authentication procedure according to the present invention. If the buyer wishes to pay for the goods with the prepaid card, the merchant reads the prepaid card data by the CAT 20, inputs the amount of the sales price, and then presses the "transfer" key (step 70). Accordingly, an authentication request message including a card issuer ID, a card unique number, and a used amount of money is transmitted to the VAN host 30 (step 72). The VAN host 30 recognizes that the message is for a prepaid card and transmits the contents of the message to the prepaid card main computer 42 (step 74). The prepaid card main computer 42 decodes the received message and inquires the database 44 of the card's unique number and balance (step 76).
    The master computer 42 compares whether the unique number included in the authentication request message is the same as that read out from the database 44 and determines whether the usage amount included in the authentication request message is smaller than the balance stored in the database 44. . According to the determination result, the host computer 42 transmits an authentication response message to the CAT 20 via the VAN host 30 (steps 78 and 80). If the unique number included in the authentication request message is the same as that stored in the database 44 and the balance of the card is greater than the amount used in the authentication request message, the authentication response message includes the balance information along with the usage authorization information. . If the unique number included in the authentication request message is the same as that stored in the database 44, but the balance stored in the database is less than the amount used in the authentication request message, the authentication response message includes the balance information along with a message indicating that the balance is low. Included. On the other hand, if the unique number included in the authentication request message is not the same as that stored in the database 44, only the information that the card is an illegal card and the card collection and notification request are included in the authentication response message. In addition, when the balance is insufficient, only a part of the commodity price, for example, may be paid by the prepaid card and the shortage may be paid by cash or credit card.
    Upon receiving the authentication response message approving the use, the CAT 20 issues a receipt and displays the card balance guidance message (step 82). After the issuance of the receipt is completed, the CAT 20 transmits the transaction result to the prepaid card main computer 42 via the VAN host 30 (steps 84 and 86). Accordingly, the prepaid card main computer 42 updates the database 44 by correcting the balance data to reflect the transaction result and adding transaction details (step 88). Meanwhile, the prepaid card storage for each affiliate is periodically transmitted to the VAN operator and / or each affiliate (step 90). Prepaid card storage for each merchant is deposited to the merchant owner periodically or irregularly (step 92). Deposit receipts may be made directly by the prepaid card issuer or by a VAN operator or other card management company.
    The above description illustrates a preferred embodiment of the present invention, and the present invention is not limited thereto and may be variously modified. For example, an IC card or other card media may be used instead of the magnetic strip card as the medium of the prepaid card. In addition, in generating the unique number, that is, a random number, a software random number generator may be used, as well as other means for randomly generating numbers. Further, in another embodiment of the present invention, the card unique number recorded on the magnetic strip may encrypt at least a part of the random number at the time of card production, instead of using the random number generated by the random number generator program as it is. Further, in an embodiment in which this embodiment is modified, at least a portion of the random number may be first encrypted at the time of card production, and then secondly encrypted before the card issuer sells the card. In addition, the prepaid card main computer subsystem 40 may be operated by a prepaid card issuing company, but may be operated by a card management agency.
    In addition, in the case of high-priced vouchers, each prepaid card shall be provided with a separate password in addition to the serial number and unique number described above, and the PIN holder attached to the card approval terminal when the card holder uses the card. It is also possible to enter the password. This password may also be used when the cardholder inquires the balance in the auto-reply subsystem 46. In an embodiment in which this embodiment is modified, the password may be printed on the surface of the card, and the portion where the password is printed may be coated such as an instant lottery ticket. In this case, the password can be used when the cardholder inquires the balance in the automatic answering subsystem 46. Thus, in the case where the password is input during the balance inquiry through the ARS system, a third party arbitrarily inquires the balance information of another person. You won't be able to.
    In a preferred embodiment, a credit card CAT is used as a card approval terminal. In another embodiment of the present invention, another type of terminal for reading prepaid card data may be used. In addition, in department stores, the card approval terminal may be directly connected to the prepaid card main computer without passing through the card VAN host. In this case, the card authorization terminal operator does not need to pay a connection fee for the card VAN host.
    As described above, according to the present invention, since the unique number using a random number is operated separately from the serial number written on the surface of the card, even if the unique number of any card is read, the unique number of the card and the serial number consecutive card is read. It is almost impossible to predict. Also, since prepaid cards are generally not so high in face value, even if one card is forged or tampered with, the card issuer suffers little damage and the damage is only one-off. In particular, given that prepaid cards are a form of bearer bond, this damage may be passed on to the true cardholder. Moreover, when the terminal independently authorizes the use of the card and fills in the balance, it is difficult to check in real time when the forged prepaid card with the same unique number is used in several places at the same time. Because it is centrally managed and maintained and cards can only be used in the balance limit, it is not possible to use multiple counterfeit cards in multiple places at the same time, further reducing the possibility of damage due to counterfeiting and tampering.
    According to a preferred embodiment of the present invention, a dedicated terminal is not necessarily required to use a prepaid card, and may be authenticated through an existing credit card approval terminal. Therefore, the prepaid card is not limited to a specific terminal or a specific terminal group, and can be used wherever a credit card authorization terminal such as a small supermarket, rental shop, restaurant, gas station is installed. Accordingly, the burden of additional equipment costs of the prepaid card merchants is almost eliminated, and the utility of the prepaid card is increased from the buyer's point of view.
    In particular, in the preferred embodiment of the present invention, as a medium of the prepaid card, a plastic or PET card on which magnetic strips are deposited is used. Such a card also has an advantage that the production and maintenance costs are significantly lower than other media. In other words, in the case of IC card or credit card, a small amount of cost is required for the card production due to the integrated circuit chip or the hologram engraved. However, the prepaid card made simply by plastic or PET card has high card manufacturing cost. It will be significantly reduced. In particular, compared to using an IC card, the use of such a card also reduces the cost of the terminal.
    In addition, the prepaid card according to the present invention has the advantage of being easy to carry and safe from wrinkles, moisture or moisture compared to paper gift certificates. In particular, printing costs and packaging costs are reduced when compared with paper gift certificates having a counterfeit preventing means of the same kind as banknotes. Moreover, in the case of paper gift certificates, the gift certificates used by the buyer must be collected and read by the optical card reader (OCR), while the prepaid card according to the present invention does not need to be recovered after being used in full. Therefore, the collection cost is not incurred and the post-management at the affiliated store is convenient.
    权利要求:
    Claims (8)
    [1" claim-type="Currently amended] A prepaid card storing a card unique number generated by a random number generator, a card approval terminal for reading the card unique number stored in the prepaid card, at least selectively connected to the card approval terminal, Providing a host storing an issuance unique number required to be identical and a balance of the prepaid card;
    When the purchaser wants to purchase a product of a predetermined price, reading the card unique number using the card approval terminal and transmitting the authentication request message including the card unique number and the product price to the host. ;
    If the card unique number and the issued unique number are the same and the balance is not 0, the host transmits an authentication response message for authorizing the use of the prepaid card as much as the authorization amount to the card approval terminal, When the balance is large, the approval amount is the commodity price, and when the balance is less than the commodity price, the approval amount is the balance; And
    If the host approves the use of the prepaid card, subtracting the commodity price from the balance and storing the deducted balance again as a modified balance; authentication and balance data management method of a prepaid card.
    [2" claim-type="Currently amended] The prepaid card authentication and balance data management method according to claim 1, wherein a credit card authorization terminal capable of reading a prepaid card as well as a general credit card is used as the card authorization terminal.
    [3" claim-type="Currently amended] 3. The method of claim 2, wherein the prepaid card is in the form of a magnetic strip card.
    [4" claim-type="Currently amended] A product payment system using a prepaid card that stores a card unique number generated by a random number generator,
    A card approval terminal for outputting an authentication request message including the card unique number and the product price upon payment by the prepaid card;
    Storing the issue unique number and balance of the prepaid card required to be the same as the card unique number; accept the authentication request message from the card approval terminal; and the card unique number and the issue unique number are the same. If the balance is not 0, an authentication response message for authorizing the use of the prepaid card is authorized to the card approval terminal. If the prepaid card is approved, the balance of the product is deducted from the balance. A prepaid card main computer subsystem for storing the amount as a modified balance again;
    And when the balance is greater than the commodity price, the authorization amount is the commodity price, and when the balance is less than the commodity price, the authorization amount is the balance.
    [5" claim-type="Currently amended] 5. The system of claim 4, wherein the card approval terminal is a credit card approval terminal capable of reading a prepaid card as well as a general credit card.
    [6" claim-type="Currently amended] The method of claim 4, wherein
    Connected to a plurality of credit card company hosts and the prepaid card main computer subsystem, and accepting the authentication request message and wherein the authentication request message relates to the prepaid card, sending the authentication request message to the prepaid card main computer subsystem And a card van host for receiving the authentication response message from the prepaid card main computer subsystem and transmitting the received authentication response message to the card approval terminal.
    [7" claim-type="Currently amended] The system of claim 4, wherein the prepaid card main computer subsystem
    Product payment system including an automatic answering subsystem for guiding the balance to the holder of the prepaid card.
    [8" claim-type="Currently amended] The system of claim 7, wherein a predetermined password is assigned to the prepaid card, and the automatic answering sub-system guides the balance to the holder only when the holder inputs the predetermined password.
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    同族专利:
    公开号 | 公开日
    KR100316728B1|2001-12-28|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    法律状态:
    1999-04-28|Application filed by 김석범, 기프트피디 주식회사
    1999-04-28|Priority to KR1019990015282A
    2000-04-28|Priority claimed from PCT/KR2000/000406
    2000-10-05|Publication of KR20000058225A
    2001-12-28|Application granted
    2001-12-28|Publication of KR100316728B1
    优先权:
    申请号 | 申请日 | 专利标题
    KR1019990015282A|KR100316728B1|1999-04-28|1999-04-28|Method of Issuing Pre-paid Card, and Method and System for Authorizing the Pre-paid Card and Supervising Balance thereof|
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