WO2010112446A1 - Card-shaped data carrier - Google Patents

Abstract

The invention relates to a card-shaped data carrier (1, 1a) and a card-shaped data carrier arrangement (2) comprising the card-shaped data carrier (1, 1a). An integrated circuit is embedded into the data carrier substrate (3) of the data carrier (1, 1a), wherein antenna sections (5, 6) extend from the integrated circuit and run in or on the data carrier substrate (3) and each end with fractures in an edge area of the data carrier substrate (3). The integrated circuit of the data carrier (1, 1a) is provided to transmit contactless data by means of an antenna (9) comprising the antenna sections (5, 6). Upon removal of the data carrier (1, 1a) from the data carrier arrangement, the antenna is severed in such a way that only the irreversibly separated antenna sections (5, 6) remain in the data carrier substrate (3) so that the contactless data transmission is no longer possible.

Description

 C a r t e n f o r m i g e i D a t e n t r e g e r

The present invention relates to a data carrier, a data carrier arrangement comprising the data carrier, from which the data carrier can be separated, a method for contactless transmission of data between the data carrier arrangement and a terminal, and a method for producing the data carrier arrangement.

Telecommunication terminals suitable for mobile radio communication are equipped with a wide variety of contactless interfaces, e.g. with GSM, UMTS or CDMA interfaces, via which not only the obligatory voice data, but also text messages or other data services can be transmitted. Such telecommunication terminals may also include an NFC radio interface ("Near Field Communication") for a contactless short-range communication with a counter-stable, eg according to the contactless data communication protocol ISO / IEC 14443. Such telecommunications terminals then additionally have an NFC controller, the short-range communication on more radio Such an NFC controller can be controlled as required by various units of the telecommunication terminal which are each responsible for the respective short-range communication, for example from a payment traffic application executable on a processor of the telecommunication terminal or the like.

Frequent applications of such short-range communication are contactless payment transactions with the telecommunications terminal, such as contactless payment in public transport, and identification and access control applications. Prerequisite for secure payment transactions as well as for secure identification processes or access controls, a security chip is involved, eg a chip card microcontroller certified for payment transaction applications with the corresponding payment transaction application. Frequently, the security chip and thus also the payment traffic application are integrated into the telecommunication terminal and thus firmly bound to it. On the other hand, the payment transaction application can also be present on a mobile security chip, for example on a secure SD memory card or another suitable chip card, or also on a (U) SIM mobile card to be inserted into the telecommunication terminal for authenticating a user to the relevant mobile radio network. so that this then takes over the function of the security chip.

However, for security reasons, the NFC controller itself often has a secure area that can take on the functions of the security chip, whereby there is generally no contact connection between the NFC controller and a (U) SIM mobile card inserted into the telecommunication terminal. Because functionalities provided by the NFC controller, e.g. the payment application, not even via the mobile network but only a Kontaktlos- interface of the telecommunication terminal or a contact-connected computer terminal can be loaded into the NFC controller, the (U) SIM Mobilk unkkarte providing mobile operator has no access to the NFC Controller and payment transaction application, eg to adapt it to your own specifications or to load further applications or data into the NFC controller.

Accordingly, it is the object of the present invention to provide secure and contactless access to an NFC controller of a telecommunication network. onsendgeräts to enable to be used in the telecommunication terminal mobile phone card.

This object is solved by objects and methods having the features of the independent claims. In the dependent claims advantageous refinements and developments of the invention are given.

A card-shaped data carrier according to the invention, e.g. A mobile radio card which can be inserted in a telecommunication terminal also comprises a data carrier substrate and an integrated circuit embedded therein, which is set up to transmit data contactlessly via an antenna, e.g. to a suitably designed telecommunication terminal. From the integrated circuit irreversibly separate antenna sections start from the antenna, which run in or on the data carrier substrate and terminate in an edge region of the data carrier substrate. Although the antenna sections are so irreversibly separated from the antenna that contactless data transmission through the integrated circuit is virtually no longer possible, the integrated circuit still has the principal functionality for contactless data transmission, since this functionality of the integrated circuit of the irreversible separation of the antenna sections of the antenna is not affected.

The card-type data carrier which can be used, for example, in a telecommunication terminal as a mobile communication card is first part of a card-shaped data carrier arrangement comprising a card-shaped card substrate which surrounds the data carrier substrate of the data carrier in such a way that the user is passed on to a user by a manufacturer or publisher of the data carrier get the disk out of the card substrate. can terminate to use this as intended, for example as to be used in a telecommunication terminal mobile phone card. The integrated circuit of the data carrier not yet separated out of the card substrate of the data carrier arrangement is connected to an antenna running substantially in the card substrate, which is severed on removal of the data carrier from the card substrate such that only the irreversibly separated antenna sections of the antenna in FIG remain the data carrier substrate.

As long as the data carrier is integrated in the data carrier arrangement, the integrated circuit can provide contactless data transmission, e.g. a short-range communication with a telecommunication terminal, perform on the running in or on the card substrate antenna and the disk array is used as a chip card with contactless interface.

However, since the antenna is irreversibly separated from the antenna sections when the data carrier is separated out of the card substrate and thereby becomes irreversibly inoperable, such contactless data transmission is no longer possible after separating the data carrier from the card substrate. A previously performed contactless data transmission can not be repeated with the herausgetrennten media. This excludes in particular that with a data carrier already used as a mobile communication card in a telecommunication terminal device, for example unintentionally or even improperly, data can be transmitted without contact to the relevant or another telecommunication terminal. The data carrier itself, in particular the integrated circuit embedded in the data carrier substrate and its functionalities, however, becomes due to the separation not damaged or otherwise impaired and may continue to be used.

In the context of the present invention, an irreversible disconnection of the integrated circuit from the antenna means an interruption of the antenna which can not readily be reversed by the user in question, and in particular not without considerable effort. Thus, for example, the integrated circuit can not be reconnected to the antenna solely by manually reinserting the separate data carrier into the card substrate, since thereby the fine antenna lines of the antenna sections in the data carrier substrate and the antenna component remaining in the card substrate are not so stable can be contacted that a contactless data transmission is made possible again.

In order to enable a simple and correct separation of the data carrier from the card substrate, the data carrier substrate in the data carrier arrangement is preferably connected to the card substrate only via breakable substrate webs in or on which the antenna runs. When the data carrier is removed from the card substrate by breaking the substrate webs, the antenna sections remaining on the data carrier are then irreversibly separated from the antenna at the same time. As a result, at those points in the edge region of the data carrier substrate on which the substrate webs previously touched the card substrate, broken web approaches occur or in which the antenna sections also each end with recognizable break points.

Characterized in that the data carrier substrate in the data carrier arrangement only over a preferably small number of functioning as predetermined breaking points breakable substrate webs is connected to the card substrate, on the one hand the format of the disk can be specified with regard to its subsequent use and on the other hand damage to the disk can be avoided in the course of separation, since this only the substrate webs are affected. The card substrate with the remaining portion of the antenna in or on it can then be discarded.

The integrated circuit preferably has the functionality of carrying out a contactless short-range communication according to ISO 14443 via the antenna running substantially in or on the card substrate within the scope of the data carrier arrangement. Via such an NFC interface of the data carrier arrangement, a mobile radio operator providing a data carrier arrangement which comprises a mobile radio card as a data carrier, e.g. transmit a payment application or other data or applications to a telecommunication terminal or its NFC controller.

After the transmission of the intended data and / or applications to the telecommunication terminal via the contactless short-range communication, the user disconnects the data carrier, e.g. a mobile card, from the disk array out and uses this for its intended use in the context of mobile communication in a telecommunications terminal.

Preferably, the card substrate has the conventional chip card format according to ISO / IEC 7810 ID-I, while the removable data carrier embedded therein has a format according to ISO / IEC 7810 ID-OOO or a mini-UICC format. These compact, standardized disk formats allow a diverse use of the data carrier in a variety of devices as secure memory cards, mobile cards or the like.

The card-shaped data carrier preferably has contact areas, via which the integrated circuit for contact-type data communication can be contacted, e.g. for a contact-type data communication of the data carrier with a telecommunications terminal, a digital camera, a computer terminal or the like. For this purpose, the contact surfaces are electrically connected to the underlying integrated circuit embedded in the data carrier substrate and can be designed, for example, in accordance with ISO 7816-2. Preferably, the integrated circuit via the contact surfaces enables contact-type data communication with a reading or terminal device according to the T = 0 or T = 1 data communication protocol in accordance with ISO 7816-3.

In order to produce the data carrier arrangement, a card-shaped basic substrate is initially provided, in which an integrated circuit is embedded, which is connected to an antenna running in or on the base substrate. Subsequently, starting from the base substrate, the data carrier substrate and the card substrate enclosing it are formed in such a way that the data carrier substrate comprises the integrated circuit and the antenna runs essentially in or on the card substrate. The data carrier substrate and the card substrate are formed by introducing predetermined breaking points into the base substrate in such a way that when the data carrier is separated from the card substrate, the antenna is severed in such a way that only irreversibly separated antenna sections of the antenna remain in the data carrier substrate. In particular, the data carrier and the card substrate are formed in the base substrate in such a way that, on the one hand, the integrated circuit is connected to the antenna and, on the other hand, the antenna is irreversibly disconnected from the integrated circuit when the data carrier is removed from the card substrate, without the integrated circuit Circuit is impaired. Against this background, the predetermined breaking points are preferably introduced into the basic substrate, for example by a punching process, in that only breakable substrate webs remain in or on which the antenna runs, between the data carrier substrate and the card substrate. This ensures that, on the one hand, the data carrier is detachable from the card substrate in the intended manner and, on the other hand, when the substrate webs are broken, the antenna is also cut in the intended manner. Here, in particular, the edge region of the data carrier is not damaged, because there remain only noticeable but the intended use non-interfering web approaches, in or at which break points of emerging from the data carrier substrate antenna sections are recognizable.

Further features and advantages of the invention will become apparent from the detailed description of the exemplary embodiments according to the invention and further alternative embodiments in conjunction with the drawings, which show schematically:

FIG. 1 shows a data carrier arrangement with data carriers of different formats;

FIG. 2 shows a data carrier arrangement with a schematically illustrated antenna running in the card substrate; and FIG. 3 shows a data carrier separated out of the data carrier arrangement according to FIG.

Normally, a user receives a common, common ID-I chip card in accordance with ISO / IEC 7810 and breaks out of it a plug-in in ID-OOO format according to ISO / IEC 7810 or in Mini-UICC format, which then eg is used as a mobile or memory card in a mobile unkendgerät or the like, the rest of the card body is disposed of as a rule. FIG. 1 shows such a data carrier arrangement 2 in the form of an ID-I card. When issuing volumes 1, 1a of a considerably smaller format to a user, e.g. in the ID-000 format or mini-UICC format, these are nevertheless passed on to the user as integrated into a card-shaped arrangement according to the ID-I format for better handling, although for the particular terminal, e.g. a mobile station, only a disk 1 or Ia in the smaller formats ID-OOO or mini-UICC is needed. The user can detach or break out the required data carrier 1, 1a from the data carrier arrangement 2 and, for example, insert it into a mobile radio terminal as a mobile radio card or into a digital camera or into an otherwise computer terminal as a memory card.

In addition to the possibility of separating out a data carrier 1 in the ID-000 format or a data carrier Ia in the mini-UICC 1a from the data carrier arrangement 2, it is alternatively also possible to have both a data carrier 1 in the ID-000 format in the data carrier arrangement 2 as well as in the even smaller mini-UICC format Ia provide, since according to ISO / IEC 7810 these formats can be in one another, wherein the integrated circuit, not shown in Fig. 1, for example, a chip card microcontroller or the like, within the smaller disk Ia in the mini-UICC Ia. FIG. 2 shows a data carrier arrangement 2 consisting of a data carrier 1 in the ID-000 format and a card substrate 4 enclosing the same. An antenna 9 of the data carrier arrangement 2 is embedded in the card substrate 4, via which the data carrier 1 performs contactless data communication in the vicinity ISO / IEC 14443, for example, can perform with an NFC controller of a mobile station. An integrated circuit (not shown) embedded in a data carrier substrate 3 of the data carrier 1 comprises the necessary functionalities for this purpose and controls the proximity communication via the antenna 9 with an external mobile radio terminal and enters, for example, data communication with an NFC controller of the mobile radio terminal.

In this way, data or applications provided by a mobile radio operator on the data carrier 1, e.g. a payment traffic application to be introduced into the mobile radio terminal or its NFC controller are transmitted from the integrated circuit via the antenna 9 present in the card substrate 4 to the NFC controller. Such a payment transaction application is e.g. on the mobile terminal required so that a user of the mobile terminal can perform secure payment transactions via the NFC controller and a corresponding NFC interface of the mobile station. Accordingly, the mobile radio terminal or its NFC controller may otherwise have specialized applications for further transactions, e.g. for identification procedures or access controls via short-range communication or the like.

At the same time, the integrated circuit with contact surfaces 10 for a contact-type data communication with the mobile station is electrically connected. Usually, such contact-type data communication of the data carrier 1 used in the mobile radio terminal takes place with the mobile radio terminal via its contact-type interfaces according to the T = 0 or T = 1 data communication protocol according to ISO 7816-3.

Via the contactless data transmission from the data carrier 1 to a mobile radio terminal via the NFC interface formed by the antenna 9, the mobile radio operator providing the data carrier 1 in the form of a mobile radio card, e.g. load their own applications, customized to their specifications and business models, into the NFC controller of a mobile phone or incorporate brand or other information into the NFC controller via "branding." For example, the mobile operator can specify a graphical interface for a payment transaction application, and more provide mobile operator-dependent functions of the payment service application or the like.

Such a contactless data transmission from the data carrier 1 to a mobile terminal, the user can only perform as long as he has not cut out the disk 1 from the card substrate 4, since the integrated circuit is separated from the antenna 9 as an NFC interface of the data carrier assembly 2. The contactless data transmission can therefore no longer take place, in particular, when the data carrier 1 is used as a mobile communication card in the relevant mobile radio terminal. Thus, after the corresponding data of the mobile operator has been transmitted contactlessly to the NFC controller of the mobile terminal, the user disconnects the data carrier 1 from the data carrier arrangement 2 and thereby destroys the antenna 9 in an irreversible manner. In order to enable a simple and in particular with respect to the disk and its integrated circuit damage-free separation of the disk 1 from the card substrate 4, the data carrier substrate 3 of the data carrier 1 only via breakable substrate webs (not shown) connected to the card substrate 4 of the data carrier assembly 2 by which also the antenna 9 runs. The breakable substrate webs were formed by a stamping or similar process with which substrate material was removed from a given base substrate in such a way that a data carrier arrangement 2 was formed which comprises a data carrier substrate 3 and a card substrate 4 connected thereto only via breakable webs, in which the antenna 9 runs.

When separating the data carrier substrate 3 from the card substrate 4, the antenna 9 is interrupted precisely at the predetermined predetermined breaking points 7, 8, which are predetermined by two of the breakable substrate webs. The predetermined breaking points can be recognized on the basis of the separated data carrier 1 at web extensions 7, 8 in the edge region of the data carrier substrate 3, wherein in or on two of these broken web extensions 7, 8 also break points of emerging from the data carrier substrate 3 irreversibly separated from the antenna antenna Annententen 5 , 6 can be seen.

After the removal of the data carrier 1 from the card substrate 4, no contactless data transmission of the integrated circuit via the antenna 9 is more possible and the card substrate 4 of the data carrier arrangement 2 can be disposed of. The data carrier 1 can now be addressed contact only via the contact surfaces 10. Since the integrated circuit is already fully functional before the removal of the data carrier 1 from the card substrate 4, for example as a chip card microcontroller, the contactless short-range communication can also be cryptographically secure. chert. The contactless transmission of data to the NFC controller of a mobile terminal can also be done without a mobile phone card inserted into the mobile terminal, as the short-range communication via the NFC controller is in principle independent of any mobile communication of the mobile terminal, which must be made possible by inserting a mobile card , This is particularly useful because the data carrier 1 as a mobile communication card is separated from the data carrier 2 by the user only after the contactless data transmission and is inserted into the mobile radio terminal.

Finally, FIG. 3 shows a separate data carrier 1, e.g. a mobile radio card whose data carrier substrate 3 has embedded or applied and in broken substrate approaches 7, 8 with corresponding breakages ending antenna sections 5, 6, which are irreversibly separated from the antenna 9, with which the integrated circuit could previously perform a short-range communication. The user can now insert the separated data carrier 1 into his mobile radio terminal, wherein the circuit integrated in the data carrier 1 is now contacted by means of the contact surfaces 10 with the mobile telephone. The integrated circuit of the separated-out data carrier 1 was not impaired in its function by being separated from the card substrate and submitting the antenna. In particular, the integrated circuit further includes all the functionalities required for contactless data communication via the now separate antenna 9.

Due to the design, the separation of the antenna sections from the antenna takes place during separation of the data carrier 1 from the card substrate 4 in such a way that the antenna sections are at least not without a considerable wall can be contacted again with the remaining in the card substrate 4 antenna 9. In particular, if 1 substrate webs are broken in the separation of the disk 1, in or on which the antenna 9 extends, for example by unscrewing, tearing or punching the disk out of the card substrate, the substrate material concerned, for example in cross section of the substrate webs, and thus the fine Lines of guided therein antenna 9 significantly deformed. A renewed stable contacting of the thus deformed web projections in the edge region of the data carrier substrate 4 with equally deformed fracture sites terminating antenna sections 5, 6 with the remaining in the card substrate 4 antenna 9 is therefore not possible with reasonable effort. In particular, it is not possible to reconnect the integrated circuit to the antenna by manually inserting the separated data carrier 1 into the card substrate 4 in such a way that contactless data transmission of the integrated circuit via the antenna 9 is made possible again.

Since the integrated circuit of the data carrier 1 is connected to the antenna 9 as well as the contact surfaces 10 via the antenna sections 5, 6 before detachment, a contactless data transmission and after the removal of the data carrier can take place immediately after the data carrier arrangement 2 has been output to a user 1 from the card substrate 4 only a contact-type data communication are performed. In this case, unintentional repetition of the contactless data transmission with the user's mobile device or abusive contactless data transmission with another mobile device is prevented without destroying or damaging the data carrier 1 by separating the data carrier 1 from the card substrate 4. A mobile operator, which the cardf örmigen disk 1 usually in Form of a embedded in an ID card I mobile ID card in ID 000 format can thus only as long as the mobile terminal of the user or on the therein NFC controller influence until the disk 1 as a mobile phone card in the mobile terminal - is set.

Claims

Patent claims

1. Card-shaped data carrier (1, Ia), comprising a data carrier substrate (3) and an integrated circuit embedded therein, characterized by extending from the integrated circuit, in or on the data carrier substrate (3) extending and ending in an edge region of the data carrier substrate (3) Antenna sections (5, 6), wherein the integrated circuit is adapted to transmit data contactlessly via an antenna (9), of which the antenna sections (5, 6) are irreversibly separated.

2. data carrier (1, Ia) according to claim 1, characterized by broken web approaches in the edge region of the data carrier substrate (3) in which the antenna sections (5, 6) each terminate with breakages, wherein the broken web approaches (7, 8) and the breaking points of the antenna sections (5, 6) have arisen by separating out the data carrier (1, 1a) from a card substrate (4).

3. data carrier (1, Ia) according to claim 1 or 2, characterized in that the integrated circuit is adapted to transmit data on the substantially in or on a card substrate (4) extending antenna (9), preferably by a contactless short-range communication according to ISO 14443.

4. A data carrier according to one of claims 1 to 3, characterized in that the card-shaped data carrier (1, Ia) has a format according to ISO / IEC 7810 ID-OOO (1) or mini-UICC (Ia).

5. Data carrier according to one of claims 1 to 4, characterized by contact surfaces (10) via which the integrated circuit contactable and a contact-type data communication is feasible, wherein the integrated circuit preferably a contact data communication according to the T = O or T = l Data communication protocol allows.

6. A data carrier according to one of claims 1 to 5, characterized in that the card-shaped data carrier (1, Ia) can be used in a telecommunication terminal mobile phone card, in particular a SIM card or USIM card.

7. card-shaped data carrier arrangement (2), comprising a card-shaped data carrier (1, Ia) according to one of claims 1 to 6 and a data carrier substrate (3) of the data carrier (1, Ia) such enclosing card-shaped card substrate (4), in that the data carrier (1, 1a) can be detached from the card substrate (4), characterized in that the integrated circuit embedded in the data carrier substrate (3) is connected to an antenna (9) extending essentially in or on the card substrate (4) is that by separating the data carrier (1, Ia) from the card substrate (4), the antenna (9) is severed such that only irreversibly separated antenna sections (5, 6) of the antenna (9) remain in the data carrier substrate (3) ,

8. data carrier assembly according to claim 7, characterized in that the data carrier substrate (3) with the card substrate (4) is connected only via breakable substrate webs, in or on which the antenna (9) extends such that the antenna (9) during the separation of the Disk is irreversibly severed by breaking the substrate webs.

9. Data carrier arrangement according to claim 7 or 8, characterized in that the data carrier (1, Ia) is adapted to perform a contactless short-range communication according to ISO 14443 via the antenna (9), in which preferably a payment transaction application or data from a mobile operator Telecommunication terminal to be transmitted.

10. A data carrier arrangement according to one of claims 7 to 9, characterized in that the card substrate (4) has a format according to ISO / IEC 7810 ID-I.

11. A method for data transmission between a data carrier arrangement (2) according to one of claims 7 to 10 and a terminal, characterized by transmitting data via a via the antenna (9) of the data carrier arrangement (2) constructed contactless data transmission connection to the terminal and a subsequent irreversibly disconnecting the contactless data transmission connection by separating the data carrier (1, 1a) from the card substrate (4).

12. The method according to claim 11, characterized in that in the irreversible separation of the contactless data transmission connection of the data carrier (1, Ia) is separated from the card substrate (4) such that in the data carrier substrate (3) only irreversibly separate antenna sections (5, 6) the antenna (9) remain.

13. The method according to claim 11 or 12, characterized in that via the contactless data transmission connection by short-range communication according to ISO 14443 preferably a payment transaction application tion or data of a mobile operator to a telecommunication terminal.

14. The method according to claim 13, characterized in that the card-shaped data carrier (1, Ia) is used after the irreversible separation of the contactless data communication connection in the telecommunication terminal.

15. A method of manufacturing a data carrier assembly (2) according to any one of claims 7 to 10, comprising providing a card-shaped one

Base substrate having an integrated circuit embedded therein and connected to the integrated circuit, in or on the base substrate extending antenna (9), characterized in that a data carrier substrate (3) with an integrated circuit embedded therein and a card substrate enclosing the data carrier substrate (3) (4) is formed with an antenna (9) extending in or on the card substrate (4) and connected to the integrated circuit by introducing predetermined breaking points (7, 8) in the base substrate in such a way that when the data carrier (1, la) is severed the antenna (9) is cut through from the card substrate (4) in such a way that only irreversibly separated antenna sections (5, 6) of the antenna (9) remain in the data carrier substrate (3).

16. The method according to claim 15, characterized in that the predetermined breaking points (7, 8) are introduced into the base substrate such that between the data carrier substrate (3) and the card substrate (4) only breakable substrate webs remain in or on which the antenna ( 9) runs such that the antenna (9) is severed when breaking out the data carrier (1, Ia) by breaking the substrate webs.