EP2795543A1

EP2795543A1 - Multi-format smart card

Info

Publication number: EP2795543A1
Application number: EP12818517.0A
Authority: EP
Inventors: Stéphane OTTOBON; Laurent Oddou; Alexis Froger; Jéremy RENOUARD
Original assignee: Gemalto SA
Current assignee: Thales DIS France SA
Priority date: 2011-12-22
Filing date: 2012-12-24
Publication date: 2014-10-29
Also published as: EP2608115A1; WO2013093117A1

Abstract

The invention relates to a multi-format smart card (1) comprising an integrated circuit chip (2), integral with a first smart card body (4) with a first form factor, a tab (8) attached to the first card body and detachable from that first card body, a second smart card body (8) with a second form factor that is larger than the first form factor, wherein the second form factor (8) comprises a contour (7) and a slot (9) configured to accommodate the first card body. The second card body (8) is attached to the tab (6) and is detachable from that tab (6).

Description

MULTI-FORMAT SMART CARD

[0011 The invention relates to a multi-format smart card. The invention also relates to a smart card body in the ISO 1D-1 format comprising a muiti-format smart card.

[002] Typically, mobile communication devices use smart cards that are generally called SIM {Subscriber Identity Module) cards. Such smart cards contain personal data for subscriber identification. Such smart cards can be transferred from one communication device to another. Over time, the requirements for the miniaturisation of mobile communication devices have led to a reduction in the dimensions of these smart cards. However, smaller cards can be difficult to handle, for example while disconnecting a card from a mobile communication device.

[003] A device to remedy that problem has been described in the patent EP1 190378B1 . The device includes the following:

- a smart card, comprising an integrated circuit chip, mounted on a card body in a first format;

- a tab that is attached to and detachable from that card body.

The tab makes it easier to handle the smart card, particularly to detach the smart card before inserting it in a mobile communications device. However, several card form factors coexist. For example, several SIM card form factors have been defined by international standards. These are commonly called 1 FF, 2FF, 3FF and 4FF formats. These form factors define card bodies with different dimensions and thicknesses. The 1 FF format is the so-called "credit card" ID-1 format {85.80mm x 53.98mm x 0.82mm), the 2FF format is the so-called mini SIM ID-G00 format (25mm x 15mm x 0.82mm), the 3FF format is the so-called micro-SIM format (15mm x 12mm x 0,82mm) and the 4FF format is a new generation of format that is not yet fully defined but which will be smaller than 3FF, with thickness of 0.68mm. Thus, the solution described limits the use of the smart card to mobile communication devices configured for the same form factor.

[004] Adapters can be found that make it possible to use a smart card with a first form factor in a device configured to receive smart cards with a second form factor, where that second form factor is larger than the first. These adapters take the form of a card body, comprising a contour and a slot configured to receive a smart card with a first form factor. However, the production of such adapters for a pair of given form factors makes it necessary to develop specific tools, particularly because of their different thicknesses. That increases the cost of production. Besides, it leads to significant loss of material.

[005] The invention is aimed at remedying one or more of these drawbacks. Thus, the invention ^' relates to a multi-format smart card comprising the following:

- an integrated circuit chip, integral with a first smart card body with a first form factor;

- a tab attached to the first card body and detachable from that first card body;

- a second card body with a second form factor that is larger than the first form factor, the second form factor comprising a contour and a slot configured to accommodate the first card body, wherein the second card body is attached to the tab and is detachable from that tab.

[006] Thus, the smart card includes adapters for several form factors, allowing a user to use the same chip in devices configured to accommodate smart cards with different form factors. Further, that smart card may be manufactured with manufacturing methods that are typically used in industry, therefore not necessitating the development of new tools. Lastly, the consumption of raw materials is reduced.

[007] In one alternative, the contour of the second card body is thicker than the tab and the first card body.

[008] In another alternative, the smart card comprises a third smart card body with a third form factor, where that third card body comprises another slot configured to accommodate the first card body.

[009] In another alternative, the third card body is attached to the second card body and is detachable from that second card body.

[0010] In yet another alternative, the third card body is attached to the tab and is detachable from it.

[001 1 ] in another alternative, the first form factor is 4FF.

[0012] In another alternative, either of the second or third form factor is 2FF or 3FF.

[0013] In another aspect, the invention relates to a card body in the ISO ID-1 format, comprising at least one multi-card smart card according to the invention.

[0014] Other characteristics and benefits of the invention will become clearer in the description below, which is not limitative in any way, by reference to the attached drawings, where:

- figure 1 illustrates a multi-format smart card;

- figure 2 is a simplified view of a transverse section of the card in figure

1 ; - figure 3 illustrates a multi-format smart card in another embodiment of the invention;

- figure 4 illustrates a multi-format smart card in another embodiment of the invention;

- figure 5 illustrates a mu!ti-format smart card in another embodiment of the invention;

- figure 6 illustrates a smart card contour comprising the smart card of figure 1 ;

- figure 7 illustrates a smart card contour comprising several smart cards of figure ! .

10015] The invention proposes a multi-format smart card.

10016] In one embodiment, represented schematically in figure 1 , the multi- format smart card 1 comprises:

- an integrated circuit chip 2, integral with a first smart card body 4 with a first form factor;

- a tab 6, attached to the first card body 4 and detachable from that first card body 4, extending in a plane parallel to that first card body 4;

- a second smart card body 8, with a second form factor that is larger than the first form factor.

[0017] That second card body 8 is attached to one end of the tab 6 and extends in a plane parallel to that tab 6. That second card body 8 is detachable from the tab 8, That second card body 8 comprises a contour 7 and a slot 9 configured to accommodate the first card body 4. The slot 9 is a cavity here, with dimensions and thickness matching the dimensions of the first card body 4, That first card body 4 may thus be inserted in it, aier it is detached from the tab 8,

[0018] The second card body 8 is thicker than the first card body 4 and the tab 8, as illustrated in the figure 2. In this example, the first form factor is 4FF. That form factor is being defined by the ETSI (European Telecommunications Standards Institute). The second form factor is 2FF, as defined by the international standard !SO/!EC 7810:2003. Here, the contour 7 of the second card body 8 has thickness of ei ranging from 800pm to 840pm, preferably equal to 820pm. The tab 6 has thickness of e₂ ranging from 650pm to 700μπι, preferably equal to 680pm. The thickness of the first card body 4 is equal to e₂, within a 5% variance.

[0019] In this example, the smart card 1 is made in thermoplastic material, using an injection and moulding method.

[0020] The first 4 and the second 8 card bodies are attached to the tab 6 by a detachable joint 5. That joint is configured to facilitate the cutting of the card bodies 4, 8 from the tab with no cutting tool. The joint is achieved here by scoring notches 5 on the front and back of the smart card 1 .

[0021] Many other embodiments are possible.

[0022] Figure 3 represents a second embodiment, in which the second card body 8 has the 3FF form factor, such as that defined by the standard ETSl 102 221. That standard particularly defines length of 15 mm and width of 12 mm, [0023] Figure 4 represents a third embodiment, where the smart card 1 further comprises a third card body 10, with a third form factor, That third form factor 10 comprises a contour 11 and a slot 12 configured to accommodate the first card body 4, That third card body 10 is attached here to the tab 6, on one side of that tab 6, and extends in a plane parallel to that tab 6. That third card body 10 is advantageously attached by means of a detachable joint 5. That third card body 10 has a 3FF form factor here. The first and second form factors are 4FF and 2FF respectively. The slots 9 and 12 respectively of each of the two card bodies 8 and 10 are configured to accommodate the first card body 4, with a 4FF form factor.

[0024] Figure 5 represents another embodiment, wherein the third card body 10, with a 2FF form factor, is attached to the second card body 8 with a 3FF format on one of its sides. Each of the two card bodies 8 and 10 comprises a slot, 9 and^' 12 respectively, configured to accommodate the first card body 4 with a 4FF form factor.

[0025] The slots 9 and 12 respectively of the second 8 and third 10 card bodies are not limited to accommodating card bodies in a first format. For example, the slot 12 of the third card body 10 with a 2FF form factor may be configured to accommodate the second card body 8 with the 3FF form factor.

[0026] Figure 6 represents a card medium 20 in the ISO ID-1 format comprising a detachable smart card 1 . The dimensions of that card medium 20 are defined by the international standard ISO/IEC 7810:2003. That medium 20 has thickness ranging from 650pm to 700pm, preferably equal to 680pm,

[0027] In this example, the card medium is made in thermoplastic material, using an injection and moulding method. The smart card 1 is detachable from the card medium. The joint between the card 1 and the card medium 20 is for example made using the same technique as the detachable joint 5.

[0028] That card medium 20 may, in another embodiment, comprise more than one smart card 1 , as illustrated in figure 7. In this example, the card medium 20 comprises four smart cards 1. Each of these cards 1 comprises a first card body 4 with a 4FF form factor and a second card body 8 with a 3FF form factor. That card body 8 comprises a slot 9 configured to accommodate the first card body 4,

[0029] In the embodiments described as examples, each smart card 1 comprises no more than a second card body in a second format or a third card body in a third format. As an alternative, these cards 1 may comprise more than one second card body in a second format or one third card body in a third format.

[0030] Preferentially, the first card body 4 has a form factor other than 4FF.

[0031] Advantageously, the card bodies and the tab may have two different thicknesses,

[0032] As an alternative, the smart card 1 is made of thermosetting material.

[0033] As a variant, the smart card 1 is manufactured by machining.

[0034] Advantageously, the detachable joint 5 of a card body is defined by partly cutting the contour of that card body or by punching.

Claims

1. A multi-format smart card (1) comprising:

- an integrated circuit chip (2), integral with a first smart card body (4) with a first form factor;

- a tab (6) attached to the first card body and detachable from that first card body;

- a second smart card body (8) with a second form factor that is larger than the first form factor, wherein that second card body (8) comprises a contour (7) and a slot (9) configured to accommodate the first card body; characterised in that the second card body (8) is attached to the tab (8) and is detachable from: that tab (8).

2. A smart card (1) according to claim 1 , wherein the contour of the second card body (8) is thicker than the tab (6) and the first card body (4).

3. A smart card (1) according to claim 2, comprising a third smart card body (10) with a third form factor, wherein that third card body (10) comprises another slot (12) configured to accommodate the first card body (4),

4. A smart card (1) according to claim 3, wherein the third card body (10) is attached to the second card body (8) and is detachable from that second card body,

5, A smart card (1) according to claim 3, wherein the third card body (10) is attached to the tab (6) arid is detachable from that tab.

6, A smart card (1) according to claim 3, wherein the first form factor is 4FF.

7, A smart card (1) according to claim 6, wherein either the second or the third form factor is 2FF or 3FF

8. A smart card in the ISO ID-1 format (20), comprising at least one smart card (1) in accordance with claim 1 ,