JP4258057B2 - Electronic money system - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention is an electronic money system in which a currency is deposited in a financial institution such as a bank, a monetary value corresponding to the currency is stored as an electronic money in an IC (integrated circuit) card, and a transaction is performed using a user terminal. About.
[0002]
[Prior art]
In electronic money transactions using electronic money, digital data (electronic money) having monetary value is stored in an IC (Integrated Circuit) card held by the user, and the digital data is transmitted to the IC card on the recipient side. It is done by doing. Although this monetary value data does not physically exist, it is processed as having been exchanged by increasing / decreasing monetary value information corresponding to the transaction amount. For example, in electronic money transactions conducted between users, a plurality of IC cards are inserted into user terminals, and control software stored in the cardsAccording toElectronic money is transferred between the IC cards.
[0003]
When funds (electronic money) are insufficient in the electronic money system using electronic money, the user needs to fill the IC card with funds, and from the user terminal for the member corresponding to the electronic money system to the public line, etc. Manage your own savings and savings account using online, for example, connect online with a host computer of a financial institution and fill the IC card inserted in the user terminal with the control software stored in the IC card .
[0004]
[Problems to be solved by the invention]
When there is a shortage of electronic money as funds in the user's IC card and it is necessary to replenish funds, that is, to replenish funds, the financial institution's own terminal can be used using a user terminal that can be charged with electronic money. A predetermined amount is filled from the deposit and saving account as a monetary value (electronic money) corresponding to the currency.
[0005]
  There are multiple banking, credit sales, distribution, etc. financial institutions that are the issuers of electronic money, and a dedicated card is used on the dedicated system for each payment mode.thingbecome. Therefore, when a retail store or a user performs transaction settlement using these electronic money, it is necessary to prepare a plurality of user terminals for each settlement mode, and the capital investment amount increases. In addition, it is very troublesome for users to prepare and carry IC cards for users of various issuing bases. Furthermore, in the international community, when the general public conducts transactions with different monetary values such as yen and dollars, the number of personally held IC cards increases.
[0006]
[Means for Solving the Problems]
In order to solve the above problems, the present inventionIn an electronic money system for storing financial information having a monetary value in a card-like storage medium as electronic money and performing electronic money transactions using the electronic money,
The card-like storage medium stores the control software for performing the electronic money and electronic money transactions in a nonvolatile memory in association with an application identifier for each predetermined payment mode, and controls reading and writing First and second user money cards having a CPU, and reading and writing of the electronic money and the control software stored from the first and second user money cards to be mounted A user terminal having a control unit capable of instructing the CPU, and using the user terminal, a money transfer transaction from the second user money card to the first user money card is performed. When doing
The control unit identifies an instructed payment form from among the payment forms stored in the second user money card, and the control software for the payment is a non-volatile memory of the first user money card. When the funds transfer transaction is executed and the control software for settlement is not stored in the non-volatile memory of the first user money card, The payment control software stored in the non-volatile memory of the second user money card is read by the CPU, stored in the non-volatile memory of the first user money card, and the funds Perform a mobile transaction.
[0008]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below. FIG. 1 is a system diagram of an electronic money system according to the present invention, FIG. 2 is an external view of a user terminal, and FIG. 3 is a control block diagram of the user terminal. 1 (also described as 1a and 1b in the figure) is a user money card, which is configured to be inserted into the user terminal 2. Reference numeral 3 denotes a multi-function telephone into which the user money card 1 can be inserted, and a communication network that can be connected to the money management center 5 that is a host device via the communication line 4 is constructed.
[0009]
The user terminal 2 is a portable terminal that can be carried in a shirt pocket, etc., and can be withdrawn from an account of a bank contracted by the user by connecting to an ATM or telephone. .
In addition to the normal call function, the multi-function telephone 3 is provided with an IC card receiving port, and includes an IC card reader / writer (not shown), an operation unit, a display unit, a control unit, a storage unit, and the like.
[0010]
The money management center 5 is a centralized center of electronic money managed and operated by the joint management mechanism, and also accepts payments between different electronic moneys of a plurality of issuing bases, and an electronic money exchange rate and the like are set.
[0011]
Reference numeral 6 denotes a personal computer (hereinafter referred to as a PC), which can be connected to the money management center 5 via the communication line 4 in the same manner as the multi-function telephone 3. These multi-function telephones 3 or PCs 6 are used when making a transaction via the money management center 5 when, for example, withdrawing electronic money from the own account. In addition to the multi-function telephone 3 and the PC 6, a POS (Point of sale) terminal (not shown) or the like can be connected, and electronic money transactions at retail stores can be performed.
[0012]
The money management center 5 is connected to a host computer 8 (8a, 8b, and 8c in the figure) via a dedicated line 7. Reference numeral 9 (9a, 9b, 9c in the figure) denotes a storage device managed by the host computer 8, and stores a ledger file and the like. The contents of this account ledger file include the address, name, age, occupation, account number, personal identification number, deposit and savings balance information (corresponding to monetary value information, and the electronic money balance). Each time a deposit / withdrawal transaction is performed, the host computer 8 instructs the updating of the electronic money balance and the latest information is stored / stored in the storage device 9.
[0013]
The money management center 5 is provided with a transaction processing manager 5a, a transaction log counter 5b, a control software storage unit 5c, a card array manager 5e, and a card safe 5f. The transaction processing manager 5a controls electronic money transactions performed via the communication line 4. The transaction log counter 5b stores the contents and number of times of information traded by the transaction processing manager 5a. The control software storage unit 5c has an IC card storing control software 5d for performing various types of transaction control at least for each payment mode, and a plurality of IC cards (not shown) corresponding to the IC card. A reader is provided.
[0014]
Like the user money card 1, the control software 5d is electronic information electrically stored in the IC card, and can be easily exchanged by extracting it from the IC card reader. It should be recorded as magnetic information on a floppy disk, etc., recorded on a ROM mounted on a printed wiring board, etc., and further stored in a CD-ROM or large-capacity IC memory card and exchanged as necessary. Is also possible.
[0015]
The card safe 5f stores a plurality of issuing base money cards (hereinafter referred to as bank money cards) 5g mounted on a plurality of IC card readers / writers (not shown). This bank money card 5g stores mobile fund information that is traded via the communication line 4, and is provided for each issuing base and stores a plurality of different types of electronic money. Transaction processing is managed and executed by the user money card 1, transaction processing manager 5a, and card array manager 5e. The card array manager 5e is connected to the host computer 8 via a dedicated line 7.
[0016]
Reference numeral 21 denotes an IC card reader / writer (hereinafter referred to as a card R / W unit), which is physically and electrically connected to a user money card 1 (1a, 1b) inserted through a card insertion slot and stored. Information can be read and written, and is controlled by a control unit described later. An operation unit 22 is used to set various processing modes and to input a personal identification number and transaction amount, and includes a plurality of push button switches as shown in the figure. A display unit 23 displays a transaction amount, a processing state, and the like, for example, a liquid crystal display.
[0017]
A storage unit 24 stores a program for controlling the card R / W unit 21, the operation unit 22, and the display unit 23. Reference numeral 25 denotes a control unit that controls each of the above units, and 26 denotes a power supply unit. The power supply unit 26 controls the card R / W unit 21 when the backup of the storage contents of the storage unit 24 or the user money card 1 is inserted, and reads the balance information in the user money card 1 and the information. Battery power for display. Reference numeral 27 is a power switch, and 28 is an external connection port.
[0018]
Software for reading and controlling stored information from the bank money card 5g is stored in a floppy disk or CD-ROM (not shown) provided in the card array manager 5e. Software for selecting and controlling the control software 5d in the control software storage 5c is stored in a floppy disk or a CD-ROM (not shown) provided in the transaction processing manager 5a. These software may be stored in a common file.
[0019]
FIG. 4 is an explanatory diagram of the user money card 1, which has a size that conforms to international standards, and that conforms to the physical characteristics and electrical characteristics of the standards, and also to the communication protocol. Reference numeral 10a denotes a terminal portion from which a part of an IC (integrated circuit) chip embedded in the card substrate is exposed, and signals are exchanged electrically. In this IC (integrated circuit), a processing program for initial transaction and a storage circuit for storing data, encryption software, ROM 10b in which encryption key information is written, transaction contents and received control There is a RAM 10c that temporarily stores a part of the software 5d. Further, it has a flash memory (hereinafter referred to as EEPROM) 10d, which is a large-scale non-volatile memory capable of electrically erasing and rewriting stored information, and a CPU 10e for controlling reading and writing of these memories. It is formed integrally.
[0020]
Next, a description will be given of an example of stored data when the stored data of the user money card shown in FIG. 5 is used for electronic money. Reference numeral 11a denotes an application identifier (Application Identifier: hereinafter referred to as APID) indicating a payment form of electronic money. When a plurality of application programs are stored in the user money card 1, the APID address is used as the head in the EEPROM 10d. A predetermined storage area is allocated. This APID has numbering management established for each type of electronic money, and the version number of the program can also be identified. In the figure, “A” in “A01” is the type symbol of the settlement form, and “01” is the version number of the control software.
[0021]
Reference numeral 11b denotes an issuing institution code for each issuing mother that is an issuer or manager of electronic money, and is assigned in advance to each issuing mother to identify the issuing mother. Although there may be cases where the issuing host and the name of the organization with which the user has a contract for trading are different, in the following explanation, the issuing host and the name of the contracting organization are assumed to be the same.
[0022]
The account number 11c is the same person information as the savings account number for each user stored in the account ledger file. The user name 11d is the name of the user who registered the account without needing to be described. The personal identification number 11e is composed of several alphanumeric characters and the like applied in a predetermined procedure at the time of opening an account, and is used for identifying and confirming the user.
[0023]
11f is a control program for performing electronic settlement to which this APID (A01) is assigned, and can be changed (program update) by a command from the CPU 10e. The expiry date 11g indicates the expiry date of this electronic money, and is set by the issuer or management source from the security aspect, and it is confirmed in a predetermined procedure that this expiry date has not expired at the time of transaction. become.
[0024]
11h is electronic money balance information which is digital data having a monetary value, and the digital data information is updated by the CPU 10e every time various deposit / withdrawal transactions are performed, and is always stored as the latest electronic money balance information 11h. Settlement is performed by transferring or exchanging the digital data. The transaction history information 11i is obtained by sequentially storing the date, transaction partner account number, transaction amount, etc. as history information when electronic commerce including electronic money filling transactions (sucking) is performed.
[0025]
Among these stored data, at least APID 11a, control software 11f, electronic money balance information 11h, and transaction history information 11i are stored in the EEPROM 10d. Other information may be stored in the ROM 10b as fixed information, but in the present embodiment, it will be described as being stored in the EEPROM 10d.
[0026]
12a is an application identifier of a payment form different from APID 11a, and an application identifier of the payment form “B” is given. Reference numeral 12b denotes an issuing institution code for each issuing mother that is an issuer or manager of electronic money, and is assigned in advance to each issuing mother to identify the issuing mother. The account number 12c is the same person information as the deposit and saving account number for each user stored in the account ledger file. The user name 12d is the name of the user who registered the account, but is the holder of the user money card 1b.
[0027]
12f is a control program for performing electronic settlement different from the control software 11f. 12h is an electronic money balance of electronic payment having APID (B01) 12a, and 12i is a transaction history.
[0028]
In the present embodiment, the information (12a to 12i) having the APID 12a is stored in the user money when the electronic money is received from the user money card 1b having a different payment form using the user terminal 2 as shown in FIG. Data transferred from the card 1b (arrow C) and stored is shown. Reference numerals 13 and 14 denote preliminary recording areas for storing third and fourth transaction data for electronic settlement.
[0029]
<Money transfer between users>
A case where electronic transactions with different electronic money settlement modes are performed between users using the user terminal 2 will be described with reference to a flowchart shown in FIG. 6 and a display example of a display unit shown in FIG. It is assumed that the issuer of the first user money card 1a manages the host computer 8a and the issuer of the second user money card 1b manages the host computer 8b. S represents each operation step.
[0030]
When a user who has received a service or desires to purchase a product turns on the power switch 27 of the user terminal 2 as a transaction preparation, power is supplied from the power supply unit 26 to the control unit 25. The control unit 25 initializes the card R / W unit 21, the operation unit 22, the display unit 23, and the like by a program stored in the storage unit 24. When the initial operation is successfully completed, an initial screen is displayed on the display unit. Is done.
[0031]
When the user inserts the first user money card 1a from the direction of arrow A as shown in FIG. 2, and similarly inserts the second user money card 1b from the direction of arrow B, the terminal 10a and the card R / W are inserted. The terminal part on the part 21 side is connected (S1). The control unit 25 reads the transaction selection screen information from the storage unit 24 and displays only the transaction items that can be traded when the external connection port 28 is not connected. Here, when the user selects the “cash transfer” transaction (S2), first, reading of the first user money card 1a is started.
[0032]
In the following description, the first user money card 1a and the second user money card 1b are referred to by referring to the first user money card 1a side for the reference numerals such as CPU and EEPROM because of the distinction between the first user money card 1a and the second user money card 1b. 10a to 10e, and the second user money card 1b side is 10a 'to 10e'. Also, the first user money card 1a side is the receiving side, and the second user money card 1b side is the paying side.
explain.
[0033]
The CPU 10e of the user money card 1a reads the APID stored in the EEPROM 10d (S3). As a result, if there is one APID, an account number and electronic money balance information that can be used for electronic transactions in the form of settlement are displayed (S4). Next, the information in the EEPROM 10d 'is read by the CPU 10e' of the user money card 1b, and based on the information, the user name is displayed as shown in FIG. . In FIG. 7A, the paying side is “Taro XX” and the receiving side is “XX Jiro”.
[0034]
When the user presses the instructed button, the money transfer transaction is started. Here, when the same APID common to both cards is stored, the name of the contracted organization is displayed as shown in FIG. When a plurality of the same APIDs are stored, the name of the contracted organization is displayed to enable the user to select.
[0035]
When the user presses a button indicating OK or a button for confirming a trading account from a plurality of account information, the version numbers of both control software are collated (S5). This can be easily done by comparing the APIDs. For example, if the user money cards 1a and 1b are “A01”, it is determined that they are the same control software 11f, and one of them is “other than A01”. In this case, it is determined that there is a mismatch.
[0036]
When the control software 11f stored in the user money card 1a is older than the control software stored in the user money card 1b in step S5, the control unit 25 sends the user money to the CPU 10e. An instruction is given to copy the control software (new version) stored in the card 1b to the user money card 1a. In response to an instruction from each CPU 10e, the control software 11f is read from the EEPROM 10d 'and stored in the RAM 10c (S6).
[0037]
Conversely, when the control software 11f stored in the user money card 1a is a new version, the control unit 25 sends the control software (new version) stored in the user money card 1a to the CPU 10e '. The user is instructed to copy the money card 1b. In response to an instruction from each CPU 10e, the control software 11f is read from the EEPROM 10d and stored in the RAM 10c '.
[0038]
If the control software stored in the user money cards 1a and 1b is the same version in step S5, the operation of step S6 is not performed.
[0039]
If the APID does not exist on the user money card 1a side in step S4, transaction information including the control software of the payment form “B” is newly stored from the user money card 1b side. First, a display as shown in FIG. 7C is performed to obtain confirmation from the user. When the user presses a button indicating OK, it is determined whether or not there is a storage area that can be stored in the user money card 1a. This means that the CPU 10e calculates from the stored capacity that there is an empty area (12, 13, 14) in the EEPROM 10d (S7). Here, when there is no vacant area, the transaction is discontinued because the transaction is impossible, but detailed description is omitted (S8).
[0040]
When the verification or storage of the control software is completed, the user is instructed to input the amount of money to be transferred. First, the case where the APID is the same will be described. In order to prevent the electronic money balance added by the movement with respect to the electronic money balance of the user money card 1a from exceeding the storage limit, the CPU 10e is shown in FIG. The amount of money that can be accepted is also displayed.
[0041]
When the transfer amount is input (for example, 10,000 yen), the CPU 10e 'confirms that the balance subtracted by the transfer from the electronic money balance of the user money card 1b does not become a negative amount. If the transfer is possible, the transfer amount (10,000 yen in the figure) is displayed as shown in FIG. 7 (e) to allow / disable selection (S9).
[0042]
Next, a case where the same APID does not exist will be described. The CPU 10e ′ transmits the transferable amount, that is, electronic money balance information to the control unit 25, and displays it on the display unit 23. When the user inputs the transfer amount while referring to this display, the control unit 25 Confirm that the electronic money balance obtained by subtracting the input amount from the displayed amount does not become a negative amount. If transfer is possible, the transfer amount (10,000 yen in the figure) is displayed as shown in FIG. 7 (e) to allow or not to be selected, but these processes are the settlements previously stored in the RAM 10c. This is performed by control software of the form “B”.
[0043]
When a transaction confirmation operation is performed by the user, the user money cards 1a and 1b are updated, and the transfer amount is added to the user money card 1a and the user money card 1b is transferred. The amount is subtracted. When the same APID exists, the electronic money balance information 11h is updated and the transaction history information 11i is stored. If the same APID does not exist, information (12a to 12i) as shown in FIG. 5 is stored as transaction information of the payment form “B” in the recording area 12 (S10). Needless to say, the transaction history information 12i at this time is stored as the first case.
[0044]
When each transaction information is stored in the EEPROMs 10d and 10d ', the stored transaction information is read out by the respective CPUs 10e and 10e', and at least the transfer amount is collated (S11). When the CPU 10e, 10e 'determines that the transaction is normal as a result of the collation, a screen is displayed as shown in FIG. When a confirmation operation input is performed by the user, a signal signifying the completion of the transaction is transmitted to the control unit 25. The CPUs 10e and 10e 'receive the establishment signal and end the processing.
[0045]
The control unit 25 displays the end of the transaction and waits for at least withdrawal of the user money card 1b. When it is detected by the detection means (not shown) that the user money card 1b has been extracted, the mobile transaction is completed (S12).
Note that the user money card 1a is extracted by the user if there is no next transaction.
[0046]
<Electronic money exchange transaction>
A process of exchanging the entire amount of electronic money in the payment form “B” with the electronic money in the payment form “A” with which the user has contracted will be described.
When the user inserts the user money card 1a into the multi-function telephone 3 as shown in FIG. 1, the terminal portion 10a is electrically connected (S21). Transaction items are displayed under the control of the control unit of the multifunction telephone 3 (not shown). When the user selects “electronic money transaction” and then inputs a predetermined account ID (a specific number for logging in to the money management center) (S22), the line connection with the money management center 5 is established via the communication line 4. Is done. The account ID can be recognized in advance and can be recognized by both the user and the contract mother, but details are omitted.
[0047]
When the line is connected to the money management center 5, an instruction is sent back from the transaction processing manager 5a to select and input the transaction type (S23). In addition, a message indicating that the service is rejected is displayed for the account registered for transaction cancellation. When the user inputs an “electronic money exchange” transaction from the multi-function telephone 3 (S24), an operation of reading data stored in the user money card 1a is performed (S25). Next, the CPU 10e transmits the APID 11a information of the head address from the read storage data to the transaction processing manager 5a by a predetermined communication protocol (S26). In this description, it is assumed that APID (A01) 11a and APID (B01) 12a exist as shown in FIG.
[0048]
The transaction processing manager 5a transmits predetermined check data to the multi-function telephone 3 and starts a mutual check (S27). When the validity is confirmed by the mutual check operation (S28), the stored data (for example, 11b to 11d) is further transmitted to the transaction processing manager 5a. The transaction processing manager 5a identifies the host computer 8a based on the issuing institution code 11b, and transmits the stored data (11c, 11d) (S29). The host computer 8a makes an inquiry with the user information of the account ledger file 9a based on the account number information 11c (S30), and a session is established when it is confirmed that the transaction is possible from the corresponding account number (S30). S31).
[0049]
When the session is established, the CPU 10e displays electronic money information for each APID that can be exchanged, and a guidance display is made to input a predetermined number for specifying the electronic money desired to be exchanged. In this embodiment, the exchangeable electronic money in the user money card 1a is only the settlement form “B” to which the APID (B01) is assigned.
[0050]
When the user instructs and selects “B” of APID by guidance display (S33), the transaction processing manager 5a confirms that the payment forms “A” and “B” can be traded. Further, the transaction processing manager 5a makes a customer inquiry to the host computer 8b based on the stored data (12a to 12h). The host computer 8b confirms that the contractor is a contractor based on the account number 12c, and sends a signal indicating that the customer has been confirmed to the money management center 5 if the transaction is possible.
[0051]
When a transaction is possible, the money management center 5 guides the user to input a password. When the user inputs the password, it is checked against the password 11e read in step S25.
[0052]
If it is determined that the number is different from the password stored in the user money card 1a, the user is prompted to “enter the password again” and prompt the user to input again. If it is not possible to confirm the password match even after performing this re-entry for a predetermined number of times, it will be notified that the password is different and the transaction will be terminated, and the line connection between the host computer 8a and the money management center 5 will be disconnected. The
If the passwords match, electronic money exchange processing is performed (S34). This exchange process will be described later.
[0053]
The CPU 10e that has received the exchanged electronic money data adds the electronic money balance to the latest electronic money balance information 11h, and finally rewrites the EEPROM 10d together with the transaction history information 11i. At this time, the electronic money balance 12h of the settlement form “B” is stored in the RAM 10c as 0 (zero) (S35).
[0054]
When the storage of the electronic money balance information added to the RAM 10c is completed, the CPU 10e transmits a signal indicating the storage completion to the money management center 5 via the multi-function telephone 3.
[0055]
The transaction processing manager 5a instructs the card array manager 5e to update the electronic money balance of the bank money card 5g whose payment form matches (S36). This update increases the electronic money balance of the payment mode “B” and decreases the electronic money balance of the payment mode “A”. However, if an exchange rate or the like is set, the electronic money balance is exchanged according to the agreement. .
[0056]
When the update of the balance information of the bank money card 5g is completed, the card array manager 5e transmits an exchange end signal to the transaction processing manager 5a. The transaction processing manager 5a that has received the exchange end notification compares the old and new versions of the control software 11f from the APID information (S37). If the software version numbers do not match, the message “Update customer card information to the latest information” is displayed (S38). The control software is continuously transmitted. Needless to say, the transmitted control software is only a control-related part necessary for performing electronic transactions using the user money card 1a.
[0057]
The CPU 10e updates the balance information stored in the RAM 10c as electronic money balance data 11h in the EEPROM 10d, and stores the handling number, transaction date and time, and transaction amount information in the transaction history storage area 11i (S39). When a new version of control software is received, the APID 11a and the control software 11f are also updated at the same time.
[0058]
When the balance information is updated and the transaction history is stored in the user money card 1a, the transaction information stored in the RAM 10c is checked, and it is confirmed that there is no error in the stored transaction information. The transaction completion is displayed (S40). With this completion signal, the transaction processing manager 5a stores the transaction record in the transaction log counter 5b.
[0059]
The line connection between the multi-function telephone 3 and the money management center 5 and host computer 8a, which are host devices, is disconnected (S41). This is detected and the transaction information in the RAM 10c is deleted. When the user sees this display and removes the user money card 1a, the transaction is completed.
[0060]
In subsequent transactions, the user money cards 1a and 1b can exchange electronic money in the payment mode “B” without copying the control software. In the offline transaction, the electronic money 12h in the user money card 1a cannot be moved except for the user money card 1b. This is because the user money card 1a makes a transaction contract of the settlement form “B”. This is because there is not. If customer issuance between issuing bodies, customer transactions between host computers 8a and 8b can be handled as a contractor, or new transactions can be induced to transfer transactions with other user money cards. Is possible.
[0061]
<Exchange processing>
The electronic money exchange process will be described with reference to the flowchart shown in FIG. 9, focusing on the process on the money management center side.
The transaction processing manager 5a that has received the APID 12a (payment form B) via the multi-function telephone 3 searches the control software storage unit 5c to check whether it can be processed. If the same control software as the received APID 12a is stored, processing is possible (S341). The number of software versions that can be identified by APID may be different. However, if the received APID is a newer version, whether or not the transaction can be finally made after processing such as inquiring to the host computer 8b. It is determined. When a signal indicating that processing is possible is returned to the multi-function telephone 3, the electronic money balance information 12h and transaction information such as exchange money denomination and amount are sent from the multi-function telephone 3 (S342).
[0062]
When an instruction is input indicating that the exchange money is electronic money of the settlement form “B”, the transaction processing manager 5a instructs the card array manager 5e to search for the bank money card 5g. The card array manager 5e specifies the bank money card 5g of the issuer mother (payment form is “A”) of the user money card 1a, and can exchange electronic money, that is, the bank money card 5g After confirming that it is not in the locked state, the electronic money of the payment form “B” is added to the bank money card 5g only when possible (S344).
[0063]
The bank money card 5g withdraws the electronic money of the payment form “A” corresponding to the received electronic money of the payment form “B”. This deposit / withdrawal process is performed by a CPU (not shown) in the bank money card 5g (S345).
[0064]
The card array manager 5e receiving the withdrawal of the electronic money transfers the information to the transaction processing manager 5a. The transaction processing manager 5a adds the electronic money balance 11h in the user money card 1a to the received electronic money amount, and determines whether or not the addition result exceeds the storage limit amount (S346).
[0065]
The transaction processing manager 5a transmits electronic money to the multi-function telephone 3 if it is within the storage limit amount. When the multi-function telephone 3 transfers this electronic money to the CPU 10e, the CPU 10e adds it to the electronic money balance 11h (S347). If the stored limit amount is exceeded in step S346, the excess amount is guided to be deposited into the account (S348).
[0066]
When account deposit is necessary, the transaction processing manager 5a transmits the excess amount of electronic money to the host computer 8a via the communication line 7. The host computer 8a adds as a deposit transaction to the deposit and saving balance of the account number opened by the user corresponding to the deposit transaction. In the process of step S348, the excess amount is stored in the bank money card 5g, and the money management center 5 is controlled on the financial institution side, and the account opened by the user is determined from the transaction information of the bank money card 5g. The electronic money balance information in the account ledger file may be updated (increased). These processes may be performed in real time or may be performed at a later date.
[0067]
When the CPU 10e transmits the electronic money balance 11h added in step S347 to the money management center 5, the transaction processing manager 5a compares the electronic money balance calculated in step S346 and confirms that it is the same, and the process ends. .
[0068]
The user money card 1 has been described as an IC card and an electric contact type card using the terminal portion 10a. However, the present invention is not limited to this, and a non-contact type IC card that is resistant to dust, dust, condensation, grease, etc. is also realized. Is possible.
[0069]
【The invention's effect】
The present invention described above has the following effects. The user can use a single user money card to make a transaction with a plurality of user money cards having different transaction forms. Therefore, it is possible for the user to trade without being aware of the card type of the trading partner, which is convenient. Furthermore, even if the control software of the other party is not stored in the user money card, the control software is copied and stored from the other party's money card, so that it is easy to increase the number of transactions.The
[Brief description of the drawings]
FIG. 1 is a system diagram of an electronic money system according to the present invention.
FIG. 2 is an external view of a user terminal according to the present invention.
FIG. 3 is a control block diagram of a user terminal according to the present invention.
FIG. 4 is an explanatory diagram of a user money card according to the present invention.
FIG. 5 is a conceptual diagram showing a part of data stored in a user money card according to the present invention.
FIG. 6 is a transaction flowchart in the user terminal of the present invention.
FIG. 7 is an explanatory diagram showing a display example in the user terminal of the present invention.
FIG. 8 is a flowchart showing exchange processing with other electronic money in the present invention.
FIG. 9 is a flowchart showing details of an electronic money exchange process in the present invention.
[Explanation of symbols]
1,1a, 1b User money card
2 User terminal
3 Multifunctional telephone
4 communication lines
5 Money Management Center
5a Transaction processing manager
5c Control software storage
5d control software
5f card safe
5g bank money card
8, 8a, 8b, 8c Host computer
9, 9a, 9b, 9c storage device
10a terminal
10b ROM
10c ROM
10d Flash memory (EEPROM)
10e CPU
21 IC card reader / writer
22 Operation unit
23 Display
24 storage unit
25 Control unit

Claims (3)

In an electronic money system for storing financial information having a monetary value in a card-like storage medium as electronic money and performing electronic money transactions using the electronic money,
The card-like storage medium stores the control software for performing the electronic money and electronic money transactions in a nonvolatile memory in association with an application identifier for each predetermined payment mode , and controls reading and writing First and second user money cards having a CPU ,
A user terminal having a control unit capable of instructing the CPU to read and write the electronic money and the control software stored from the first and second user money cards to be mounted; Provided,
When performing a funds transfer transaction from the second user money card to the first user money card using the user terminal,
Wherein the control unit is configured to identify the settlement embodiment shown fingers from the second settlement form that is stored in the user money card, the control software for the payment of the first user money card If stored in non-volatile memory, execute the funds transfer transaction;
When the payment control software is not stored in the non-volatile memory of the first user money card,
The payment control software stored in the non-volatile memory of the second user money card is read by the CPU, stored in the non-volatile memory of the first user money card, and the funds An electronic money system characterized by executing a mobile transaction . The electronic money system according to claim 1,
The application identifier is formed by a settlement mode type symbol and control software version number information,
When the control software for settlement is stored in the non-volatile memory of the first user money card,
The application identifier stored in the non-volatile memory of the second user money card is read by the CPU and the version number is compared with the application identifier in the non-volatile memory of the first user money card. ,
When the version number information on the first user money card side is an old version, the control software stored in the nonvolatile memory of the second user money card is transferred to the nonvolatile memory of the first user money card. Electronic money system that can be copied to volatile memory . The electronic money system according to claim 2,
The controller is
As a result of collating the version number with the application identifier, when the version number information on the second user money card side is an old version, the control software stored in the nonvolatile memory of the first user money card is An electronic money system capable of copying to a non-volatile memory of a second user money card .

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