NL1004365C2 - Device for loading general programmes and personal data into memory of chip card and similar - Google Patents

Abstract

The device is further provided with a distributor station (30) with an input and a number of outputs corresponding to the number of loading stations (22a,22b...22x). The input is connected to the output of the computer (20) and the outputs via the output conduits (14a,14b...14x) are connected to the loading stations. The computer on the one hand generates programmes which are via the distributor are fed to the all loading stations and on the other hand personal data is generated which via the distributor every time is only fed to a single loading station. The distributor is so formed that the data received at the input is either simultaneously passed to all outputs or every time only to one of the outputs.

Description

Method and device for loading chip cards

The invention relates to a device for loading general programs and personal data in the memory of chip cards and the like, wherein the chip card is provided with a processor, a memory and input / output means and the device is provided with a computer can communicate with a number of charging stations via output lines, each suitable for loading a chip card.

Such a device is known from the prior art. In this known device, after a chip card has been positioned in all charging stations, only programs are simultaneously transmitted via the output lines between the computer and the various charging stations. The chip cards loaded with software are then collected and then one by one fed into a separate loading station, where each of the 15 cards is provided with the personal data.

The drawback of the prior art lies in the fact that several separate steps have to be carried out using suitable hardware to ultimately load each of the cards both with programs and with personal data.

The object of the invention is now to eliminate this drawback and to that end provides a device of the type described in the first paragraph, which according to the invention is characterized in that the device is further provided with a distribution station with an entrance and a number of charging stations corresponding number of outputs, the input of which is connected to the output of the computer and of which the outputs are connected to the charging stations via the said output lines, the computer on the one hand generating programs which are fed to all charging stations via the distributor and on the other hand, personal data are generated, which are only supplied to a single charging station via the distributor.

Thanks to the invention it is possible to provide all cards both with programs and with personal data in a single process. On the one hand, this achieves that the available hardware is used much more efficiently and, moreover, the full loading of a number of chip cards can take place much faster.

Various process variants are possible with regard to the functioning of the device. A first embodiment of a method for loading programs and personal data into the memory of chip cards and the like using a device of the above-described type, the computer operates in such a way that the computer generates programs during a first period which the distributor is supplied to all loading stations simultaneously and generates successively for a second period each time personal data intended for other cards, which is each time supplied to other loading stations via the distributor.

In order to be able to realize this method, it is preferable that the distributor is designed in such a way that either the data received on the input is simultaneously passed on to all outputs or the data received on the input is passed on to one of the outputs at a time.

Because in the above-described method variant the programs are loaded simultaneously and the personal data are subsequently fed sequentially to the various loading stations, the communication speed between the computer and the distributor depends mainly on the number of loading stations and the time required to supply personal data to these charging stations via the distributor.

However, it is also possible to have the device function in such a way that the computer in turn generates programs and personal data intended for a card in succession, which are each fed together via a distributor to a single charging station. In order for this embodiment to function efficiently, it is desirable that the speed of communication between the computer and the distributor be chosen much higher than in the first described method, because now the software has to be fed separately to each of the loading stations, which requires more time . On the other hand, this embodiment has the advantage that the information transfer between the distributor and the individual charging stations takes place in a strictly cyclic and sequential manner. If separate hardware is used to remove a loaded card from a charging station and then insert a new card that is not yet loaded into the charging station, these devices can also be controlled cyclically and sequentially. In the first embodiment of the method, care must be taken each time that a separate period is required in order to simultaneously supply all the cards with the software.

The invention will be explained in more detail below with reference to the accompanying figures.

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Figure 1 schematically shows a device as is known from the prior art.

Figure 2 schematically shows a device according to the invention.

Figure 3 illustrates a first way in which the device can function.

Figure 4 illustrates a second way in which the device can function.

Figure 1 illustrates a device as known from the prior art. This device comprises a central computer 10 and a number of 10 charging stations 12a, 12b, ..., 12x. Each of the loading stations is connected via a line network 14 to the output of the central computer 10. Via this line network 14, programs are simultaneously transferred to each of the loading stations.

As shown schematically in Figure 1, a chip card 16a, 16b, ..., 16x is each inserted into each of the charging stations. After each of the loading stations is provided with a chip card, the central computer 10 is activated and the program data is fed in parallel to each of the loading stations 12a, 12b, ..., 12x in order to load the chip cards contained therein. Then, the chip cards are removed and new chip cards are inserted into the charging stations, etc.

The chip cards loaded in this way only with program data are then each provided with personal data (name of the user, bank account number, etc.) in a separate procedure, with which the card is, as it were, personalized. This has the disadvantage that, on the one hand, separate hardware is required to enter the personal data and, on the other hand, the disadvantage that it takes a relatively long time to fully load the card.

Figure 2 now shows a device in accordance with the invention. This device is provided with a central computer 20 and a number of charging stations 22a, 22b, ..., 22x. Between the central computer 20 and the array of charging stations is a distributor 30, the input of which is connected via a communication connection 28 to the output of the computer 20. The distributor 30 has a number of outputs corresponding to the number of charging stations. Each of these outputs is connected to the respective charging station via an output line 14a, 14b, ..., 14x. an unloaded chip card 26a, 26b, ..., 26x is inserted into each of the charging stations.

The device can function in various ways. According to a first mode of operation, after the charging stations have been provided with chip cards, first of all, program data is simultaneously entered into these chip cards. To this end, the distributor 30 is brought into such a state that the program data which is supplied from the central computer 20 via the connection 28 to the distributor are simultaneously output to the output lines 14a, 14b, ..., 14x, so that in all charging stations the chip cards with software are contained therein. Subsequently, the distributor 30 is brought into a state in which the received data is sequentially fed to one of the output lines 14a, 14b, ..., 14x. The central computer 20 now starts to generate personal data on the line 28. The distributor now ensures that this data is always supplied to one of the loading stations 22a, ..., 22x in order to load the cards concerned therein with separate cards in each case. personal data.

Figure 3 schematically gives an impression of the above-described method. During the period P1, all maps are loaded simultaneously with program data. During the period P2, the station 22a is controlled with personal data. During the period P3, the station 22b is driven with personal data, etc. Finally, during the period Px + 1, the station 22x is driven with personal data.

Another mode of operation is schematically illustrated in Figure 4. According to this embodiment of the method, the program data and the personal data intended for one card are sequentially supplied to one of the loading stations. Specifically, during the period P1, program data is supplied to station 22a and during the period P1b, the personal data is supplied to program station 22a. During period P2a, the program data is supplied to station 22b, during period P2b, the personal data is sent to the loading station 22b. This continues until the program data is sent to loading station 22x during period Px1 and then the personal data is supplied to loading station 22x during period Px2. It will be apparent from a comparison between Figures 3 and 4 that, by transferring program data X times, the number of periods required is much greater than in the method of Figure 3. The advantage of the method of Figure 4 is however, the loading of the chip cards now takes place in one processing step. If separate hardware is used for the input and output of the chip cards, it is possible to activate this hardware at the same rate at which the charging stations are controlled, to remove a loaded card and to insert the next one still unloaded. Map.

In general, it is preferable to set the communication speed 5 between the computer 20 and the distributor 30 so that each of the charging stations 22a, ..., 22x can function at its maximum capacity. It will be clear that the speed in the method according to figure 3 can be lower than the speed in the method according to figure 4. However, with the technology currently available, data transfer speeds that are so high can be realized that even at large numbers of charging stations this condition can be met.

100436S

Claims (5)

1. Device for loading general programs and personal data into the memory of chip cards and the like, wherein the chip card 5 is provided with a processor, a memory and input / output means and the device is provided with a computer which can communicate via output lines with a number of charging stations each suitable for loading a chip card, characterized in that the device further comprises a distribution station with an input and a number of outputs corresponding to the number of charging stations, the input of which is connected to the output of the computer and the outputs of which are connected to the charging stations via the said output lines, the computer on the one hand generating programs which are supplied to all charging stations via the distributor and, on the other hand, generating personal data which are only supplied to a single loading station via the distributor. 2. Device as claimed in claim 1, characterized in that the distributor is designed in such a way that either the data received at the input is simultaneously passed on to all outputs or the data received at the input is each time only passed on to one of the outputs. 3. Method for loading programs and personal data into the memory of chip cards and the like using an apparatus according to claim 2, characterized in that the computer generates for a first period programs which are simultaneously sent to all loading stations via the distributor. and subsequently successively generates personal data intended for other cards for a second period, which is each time supplied via the distributor to other loading stations. Method for loading programs and personal data into the memory of chip cards and the like using an apparatus according to any one of claims 1 or 2, characterized in that the computer successively programs programs and personal cards intended for a card generates data that are fed together through a distributor to a single charging station. 1004365 Method according to claim 3 or 4, characterized in that the speed of communication between the computer and the distributor is at least so great that each of the charging stations can operate at maximum capacity. 5 t 004 3 6 5