FR2944631A1 - Electronic device for use in portable telephone, for e.g. product payment operation, has battery supplying power to microcircuit, where battery is connected to card body by flexible member partially extending outside card body - Google Patents

Abstract

The device (10) has a micro-circuit card (12) i.e. identification card e.g. subscriber identity module card, comprising a rigid card body (14) incorporating a microcircuit. A thin film battery (32) supplies power to the microcircuit. The battery is connected to the card body by a flexible member (34) partially extending outside the card body. The card body bears external contact interface extending on a surface of the body and includes a series of electric contact plates connected to the microcircuit, where the plates are arranged to be coupled with the battery.

Description

The present invention relates to the technical field of microcircuit cards and more specifically but not specifically the technical field of identification cards to a mobile phone network. An identification card is also known as the SIM card (Subscriber Identity Card Module) or USIM card (Universal Subscriber Identity Module also called UICC card for UMTS Integrated Circuit Card) or more generally card RUIM (for Removable Universal Identity Module). These cards generally comprise data processing means and data storage means for storing information specific to a user of the mobile telephone network. The presence of such a card within a mobile terminal (such as a mobile phone) allows this terminal (thanks to the information contained in the identification card) to connect to the network and exchange data with other network devices. This card forms a secure element of the phone for authentication of the user of this card with an authentication key stored for example in the memory means of the card. It is known in the state of the art to integrate in a mobile terminal applications, in addition to the mobile application, such as electronic wallet applications, tickets (train, metro, bus , airplane) in the form of a contactless microcircuit card, etc. For example, payment by mobile terminal, commonly referred to as the mobile payment term, consists in paying a product (or service) via its mobile terminal. Conventionally, the payment is made by contactless communication thanks to the presence of a near-field communication antenna incorporated in the terminal that allows the exchange of data between the terminal and external equipment such as a terminal of payment . Thus, to use this type of service or to exchange information, the user approaches his mobile terminal from the terminal, so that a near field communication transaction can be performed.

During the transaction, the microcircuit of the identification card performs secure data exchanges to ensure the security of the transaction. When the terminal is turned on, the microcircuit is conventionally powered by the main battery of the terminal which also supplies the various electrical organs of the terminal, such as the screen, the keyboard, etc. On the other hand, when the terminal is off, especially when the battery is discharged, the microcircuit is no longer powered and no transaction can be made. It is thus necessary to provide an autonomous power supply of the battery to allow the realization of secure operations, including payment operations, even when the main battery of the terminal is discharged. However, the incorporation into the body of the mobile phone of an additional battery is difficult to envisage in a standard telephone body because of the spatial constraints of such a battery. Moreover, the integration of the additional battery in an identification card body proves to be relatively complex because of the reduced size of such cards. In addition, the identification card generally extends into a compartment located under the main battery so that the incorporation of an additional battery near the card is difficult to achieve in a standard mobile terminal. An object of the present invention is to provide a solution for incorporating an additional battery into any mobile terminal in a simple way and without requiring special adaptations of this terminal. For this purpose, the subject of the invention is a microcircuit electronic device comprising: a microcircuit card comprising a rigid card body incorporating a microcircuit, and a thin film type microcircuit supply battery, characterized in that that the battery is connected to the card body by a flexible member extending at least partially outside the card body. Thus, the flexible member forms a deformable flexible tab at the end of which the battery is attached. When incorporating the identification card in the compartment of the mobile terminal provided for this purpose, the flexible tab is deformed so as to deport the battery in a space large enough to accommodate it, for example above the battery between the mobile device housing cover and the main battery. By thin film type battery is meant a battery having a battery body of thickness substantially less than 500 microns. Such batteries are made for example in a thin layer by stacking battery cells such as an anode element, a cathode element, a solid electrolyte element and two end elements forming contact terminals of the battery. drums. The thickness of such batteries is substantially less than 500 microns but is preferably less than or equal to 150 microns. Preferably, the card body carries on one of its opposite faces an interface of external contacts comprising a first series of contact pads electrically connected to the microcircuit and arranged to be electrically coupled with an external equipment and a second series of contact pads arranged to be electrically coupled with the battery. The additional battery is thus connectable directly to the second series of contact pads while the main battery is connected in a conventional manner to the contact pads of the first series when inserted into the mobile terminal.

In a particular embodiment, the format, namely the arrangement and the function, of the contacts of the first series is in accordance with the ISO 7816-2 standard. For example, the first series comprises six ranges that correspond to the contacts C1 for the supply of the microcircuit, C2 for Reset, C3 for the clock (Clk), C5 for the connection to the mass of the microcircuit, C6 for the programming voltage and C7 for the input / output data. The second series includes a contact pad for connecting a negative terminal of the battery to ground and a contact pad for connecting the microcircuit to a positive terminal of the battery. Preferably, the card body incorporates a conductive member comprising first and second branches respectively connected to first and second contact pads respectively of the first and second series and to a common branch electrically connected to a supply terminal of the microcircuit. In one embodiment, the conductive member comprises means that allow the flow of current in a direction from the first to the second range and that prohibit the flow of current in an opposite direction. In this case, by connecting the main battery of the mobile terminal to the first range and the secondary battery to the second range, the supply current delivered by the main battery can supply both the microcircuit and the additional battery so that that the latter takes charge. On the other hand, when the main battery is discharged, the additional battery delivers a supply current only of the microcircuit since the current can not flow from the secondary battery to the main battery. As a result, the switching between a charged mode and a discharged mode of the main battery is automatic thanks to the presence of this conductive member. In a preferred embodiment, the means of the conductive member 30 comprise a diode carried by the first branch of the conductive member.

Preferably, the flexible member comprises an end portion arranged to extend on the face of the card body carrying the external contact interface, this part forms the electrical connector of the battery with at least one contact pad of the first series. The end portion comprises for example an adhesive face intended to be attached to the face of the card body carrying the interface of external contacts by gluing. Preferably, the connector end portion carries at least one contact pad arranged to extend in relation to at least one contact pad of the second series.

In addition, in a preferred embodiment, the interface comprising a third series of contact pads arranged to be electrically coupled to a near-field communication antenna, the end portion forms an electrical connector of the antenna with at least a contact area of the third series.

Preferably, the end portion is arranged to extend on the face of the card body carrying the external contact interface leaving at least partially the contact pads of the first series at least partially for their electrical coupling with the equipment. external. Therefore, the end portion can be reported by gluing simply still allowing a standard electrical connection of the contact pads of the first series since the contacts of this first series are discovered and always accessible for the establishment of a connection electric. Thus, the standard configuration of the microcircuit card allows a standard use of the latter while allowing connection to additional equipment such as a battery and a near field communication antenna. In a preferred embodiment, the flexible member comprises a support end portion of the battery. Preferably, the support end portion is opposed to the connector end portion, the end portions being interconnected by a thinned section medial portion. This middle part forms a flexible connection allowing the deportation of the end portion forming support relative to the connector end portion. The length of this middle part can be increased. In addition, in a preferred embodiment, the connector end portion is electrically connected to the battery by at least one electrically conductive member arranged to extend longitudinally in the middle portion. Preferably, the support end portion carries a near field communication antenna arranged to extend around the battery along the periphery of the support.

Preferably, the battery comprises a body delimiting opposite first and second faces and a peripheral side wall, each face of the battery is provided with at least one extension forming an electrical contact tab, protruding from the body, the tongues being arranged in position shifted relative to each other along the peripheral wall of the body of the battery. This makes it possible to have a lateral connection of the battery tabs to an electrical connection circuit to the tracks of the second series and not a vertical connection which would cause a relatively large increase in the thickness of the battery and its support formed by the end portion of the flexible member. Thus, in a preferred embodiment, the end portion of the flexible support member comprises an orifice arranged to receive the battery so that the tabs of the battery each extend on one of the opposite faces of the support. .

Preferably, the battery is in the general shape of plate and has a thickness less than or equal to 150 microns. Other characteristics and advantages of the invention will emerge in the light of the description which follows, made with reference to the appended drawings in which: FIG. 1 is a view from above of a device according to the invention comprising a card microcircuit and a battery; Figure 2 is a bottom view of the device of Figure 1; - Figure 3 shows in detail and in perspective the card illustrated in Figures 1 and 2 showing an interface of external contacts; Figure 4 shows a bottom view of the interface of Figure 3; FIG. 5 schematically represents an electrical circuit for connecting components of the card of FIG. 3; FIG. 6 represents an ID-1 forming card having a precut defining the microcircuit card of FIG. 3; Figure 7 shows a perspective view of a flexible member of the device; Figure 8 is a sectional view of the flexible member showing the battery and the antenna; FIG. 9 represents a mounted assembly of a microcircuit card and a battery on a card in ID-1 format; FIG. 10 represents a sectional view of a mobile terminal incorporating the electronic device according to FIGS. 1 to 8. FIG. 1 shows an electronic device according to the invention. The electronic device is designated by the general reference 10. The device 10 comprises a microcircuit card 12 shown in detail in FIGS. 3 and 4. In this embodiment, the microcircuit card 12 is a network identification card. mobile phone and has a format substantially corresponding to the ID-000 format, also designated by micro-SIM format or SIM plug-in defined by ISO 7816. Alternatively, other card formats may also be suitable. This card 12 is particularly intended to be incorporated in a compartment 100 of a body 102 of a mobile terminal 104 such as that shown in section in FIG. 10. More specifically, this card 12 comprises a rigid card body 14 incorporating a microcircuit 16. The card body 14 defines the outer dimensions of the card 10 which are in this example in the ID-000 format. Thus, the card body 14 has a general shape of plate 0.76 mm thick and 2.5 mm wide and 2.5 mm long. This card body 14 also delimits opposite faces designated hereafter by references 14A and 14B. With reference to FIGS. 3 and 4, the card body 14 comprises a module 16 comprising the microcircuit 20. This microcircuit 20 comprises communication means with a contact card reading device (not shown). Conventionally, the microcircuit module 16 comprises an electrically insulating support 18 and delimiting opposite internal 181 and external 18E faces. The support 18 is for example made of glass fiber type epoxy, polyester or paper and has a thickness for example between 0.1 mm and 0.2 mm. The microcircuit 20 is carried by the inner face 181 of the support 18 as shown in Figure 4. Preferably, the card body 14 carries an interface 22 of external contacts which extends on a 14A of its opposite faces. This interface 22 is able to be electrically coupled with one or more external equipment. With reference to FIG. 3 illustrating a view from above of the microcircuit card 12, the interface 22 is carried by the external face 18E of the module 16. This interface 22 comprises, for example, a first series 28 of 20 electrical contact pads 30 , conform to a predefined standard of microcircuit cards. This first series 28 is electrically connected to the microcircuit 20 and is arranged to be electrically coupled with an external equipment such as a card reading head incorporated in a mobile terminal. For example, the first series 28 is connected to the microcircuit 20 via electrically conductive tracks 24 extending on the internal face 181 electrically connected to terminals of the microcircuit 20 and by electrically conductive wires, for example wires. or through vias 26 formed in the support 18. For example, the contact pads 30 of the first series 28 are in accordance with ISO 7816. In this embodiment, the contact pads 30 of the first series 28 correspond to respectively to the contacts C1, C2, C3, C5, C6, C7 of ISO 7816. In particular, the contact pads 30 which correspond to the contacts C1 and C5 are intended to be coupled respectively with positive and negative terminals of a main battery 106 of a mobile terminal 108 such as that illustrated in FIG. 10. In addition, as can be seen in particular in FIG. 3, the physical interface 22 extends over a zone t less than the total area of the map 12.

The physical interface 22 of the card 10 is preferably made of a layer of metallic material such as copper but may also be made, alternatively, by screen printing of conductive ink such as epoxy ink loaded with silver particles or or by screen printing an electrically conductive polymer.

The device 10 also comprises a battery 32 for supplying the microcircuit 20. More particularly, the battery 32 is connected to the card body 14 by a flexible member 34 extending at least partially outside the card body 14 (FIG. ). This member 34 is shown in detail in FIG.

In order to allow the electrical connection of the battery 32 to the microcircuit 20, the external contact interface 22 comprises a second series 36 of contact pad arranged to be electrically coupled with the battery 32. Of course, just like the first series 28 of contact, preferably, the microcircuit 20 is electrically connected to this second series 36. In this embodiment, this second series 36 comprises two ranges, a first contact pad 38 for connecting a positive terminal of the battery 32 to a power supply terminal of the microcircuit 20 and a second contact pad 40 for connecting a negative terminal of the battery 32 to the ground of the module 16. As shown in FIG. 7, the flexible member 34 comprises a first end portion 42 arranged to extend on the face 18E of the card body 14 carrying the interface 22 of external contacts. This end portion 42 in this case forms an electrical connector of the battery 32 with at least one of the two contact pads 38, 40 of the second series 36 of contact pads.

In addition, the flexible member 34 comprises a second end portion 44 forming a support of the battery 32. In the example described, the first 42 and second 44 end portions are opposed to each other and are connected by a middle portion 46 of thinned section. The first end portion 42 forming a connector is electrically connected to the battery 32 by at least one electrically conductive element 48 arranged to extend longitudinally in the middle portion 46. This element is for example a wire. In this example, the battery 32 is generally plate-shaped and has a thickness less than or equal to 150 microns. FIG. 6 shows a sectional view of the end portion forming a battery support. In this embodiment, the battery 32 comprises a body 50 defining first and second opposite faces 50A, 50B and a peripheral side wall 52. Each face 50A, 50B of the battery 32 is provided with at least one extension 54A, 54B forming an electrical contact tab protruding from the body, the tabs 54A, 54B being arranged offset from each other along the peripheral wall 52 of the body 50 of the battery 32. These tabs 54 allow the electrical connection of the battery 32 these tabs 54A, 54B advantageously form electrical terminals of the battery 32. In this embodiment, the end portion 44 forming a support comprises an orifice 56 arranged to receive the battery 32 so that the tabs 54 of the battery 32 each extend on one of the opposite faces of the end portion 44, designated 44A, 44B. In addition, as can be seen in FIG. 6, electrically conductive tracks 58A, 58B are printed on the faces 44A, 44B of the end portion 44 forming a support so that the tongues 54 are in electrical contact with the tracks 58A, 58B. In addition, the track 58A includes a portion carried by the face 44A and a portion carried by the face 44B. The two parts of this conductive track 58A are electrically connected by an electrically conductive wire through a via 57 formed in the end portion 44 (as shown in dashed lines in FIG. 8). These two tracks 58A, 58B are thus extended into electrically conductive wires 48 able to extend into the section 46 of the flexible member 34 for their connection respectively to the contact pads 38 and 40.

Preferably, the battery 32 is formed by a battery of battery cells such as anode element, a cathode element, an electrolyte element, anode and cathode current collection elements. These anode and cathode current collection elements thus form electrical terminals and are formed in this embodiment by the opposite faces of the battery 32. Preferably, at least one contact pad is common to the first and second series. . In this embodiment, the common range is the range of the first series corresponding to the contact C5 defined by the ISO 7816 standard.

The first end portion 42 forming a connector carries at least one contact pad (not visible in the figures) arranged to extend facing at least one contact pad of the second series of pads. In the example described, the first part 42 carries two contact pads so as to connect each of the positive and negative terminals of the battery 32 with the respective plates 38, 40 of the second series 36. Preferably, the first part of end 42 is arranged to extend on the face 14A of the card body 14 carrying the interface 22 of external contacts, leaving bare the contact pads (at least partially) of the first series 28 for their electrical coupling with the external equipment.

In this embodiment, the first end portion 42 comprises recesses 43 able to coincide, once the flexible member 34 attached to the card 12, with the contact pads 30 of the first series 28 corresponding to the contacts C1, C2, C3, C5, C6, C7. The interface 22 includes a third series 60 of contact pads 62 arranged to be electrically coupled to a near-field communication antenna 64. In this case, the first end portion 42 forms an electrical connector of the antenna 64 with at least one contact pad 62 of the third series 60. In addition, preferably, the first end portion 42 forming a support carries the Antenna 64. In this case, for example, the latter being arranged to extend around the battery 32 along the periphery of the second portion 44 forming a support. Preferably, in order to manage the supply of the microcircuit 20 by the battery 32 and by the external main battery 108 shown in FIG. 10, the body 14 of the card 12 incorporates a conductive member 70 comprising first 72 and second 74 connected branches. respectively to the range 30 corresponding to the contact C1 of the first series 28 and the range 38 of the second series. The conductive member 70 also comprises a common branch 76 electrically connected to a power supply terminal 78 of the microcircuit 20.

Advantageously, the conductive member 70 comprises for example means 82 which allow the flow of current in a direction from the range 30 of the contact C1 to the range 38 and which prohibit the flow of current in an opposite direction. In this preferred embodiment, the means 82 comprise a diode 84 carried by the first branch 72 of the conductive member 70. Thus, when the main battery 106 is discharged, thanks to the conductive member 70, the microcircuit 20 is powered by the additional battery 32 automatically. However, the conductive member 70 prevents the discharge of the additional battery 32 in the main battery 106 through the diode 84 which prevents the flow of current in this direction. In addition, when the battery 106 is charged, it supplies both the microcircuit 20 and the additional battery 32.

The main aspects of the operation of an electronic device according to the invention will now be described in detail. According to Figure 10, the card 12 is inserted into the compartment provided for this purpose of a mobile terminal. The face of the card carrying the contact interface is directed towards the bottom of the compartment so that the contact pads of the first series are vis-à-vis with those of a read head of the mobile terminal. The end portion of the flexible member carrying the support is then deported above the main battery 106. Indeed, the length of the middle portion is chosen to allow this delocalization. The end portion 44 forming a battery holder having substantially a constant thickness and equal to that of the battery is easily inserted between the battery compartment cover of the terminal and the main battery. Thus, the incorporation of such a battery does not require adaptation of existing mobile terminals and the battery can be inserted into any mobile terminal. This makes it possible to implement in any mobile terminal the mobile payment service. In addition, the manufacture of such an electronic device proves relatively simple as is illustrated in FIG. 9. Thus, in a conventional manner, the card 12 forms a precut of a card 110 in ID-1 format. The flexible member 34 as shown in FIG. 7 is then attached by bonding on the face 14A of the card 12 so that the rows of contact pads C1-C2-C3 and C5-C6-C7 coincide respectively with each of the recesses 43 formed in the end portion 42 of the flexible member 34. It is understood that the embodiments described above are not limiting in nature and that they can receive any desirable modification without leaving for that, the scope of the invention.

Claims (16)

REVENDICATIONS1. Electronic device (10) with a microcircuit comprising: - a microcircuit card (12) comprising a rigid card body (14) incorporating a microcircuit (20), and a battery (32) for supplying the microcircuit (20) of the type thin film, characterized in that the battery (32) is connected to the card body (14) by a flexible member (34) extending at least partially outside the card body (14). 2. Device (10) according to the preceding claim, wherein the card body (14) carries an interface (22) of external contacts extending on a face (14A) of the body (14) and comprising a first series (28). ) contact pads (30) electrically connected to the microcircuit (20) and arranged to be electrically coupled with an external equipment and a second series (36) of contact pads (38, 40) arranged to be electrically coupled with the battery ( 32). 3. Device (10) according to the preceding claim, wherein at least one contact pad (40) is common to the first (28) and second (36) series. 4. Device (10) according to claim 2 or 3, wherein the card body (14) incorporates a conductive member (70) comprising first (72) and second (74) branches respectively connected to first (30) and second (38, 40) contact pads respectively of the first (28) and second (36) series and a common branch (76) electrically connected to a supply terminal of the microcircuit (20). 5. Device (10) according to the preceding claim, wherein the conductive member (70) comprises means (82) which allow the flow of current in a direction from the first (30) to the second range (38) and which prohibit the flow of current in an opposite direction. 6. Device (10) according to the preceding claim, wherein the means (82) comprise a diode (84) carried by the first branch (72) of the conductive member (70). The device (10) according to any one of claims 2 to 6, wherein, the interface (22) comprising a third series of contact pads arranged to be electrically coupled to a near-field communication antenna, the portion terminal (42) form electrical connector of the antenna (62) with at least one contact pad of the third series. 8. Device (10) according to any one of claims 2 to 7, wherein, the flexible member (34) comprising an end portion (42) arranged to extend on the face (14A) of the body of board (14) carrying the interface (22) of external contacts, this portion (42) forms electrical connector of the battery (32) with at least a range (38, 40) of contact of the second series (36). 9. Device (10) according to the preceding claim, wherein the end portion (42) is arranged to extend on the face (14A) of the card body (14) carrying the interface (22) leaving naked at least partially the contact pads (30) of the first series (28) for their electrical coupling with the external equipment (106). The apparatus (10) of any preceding claim, wherein the flexible member (34) includes an end portion (44) for supporting the battery (32). 11. Device (10) according to the preceding claim taken with claim 8 or 9, wherein the end portion (44) forming a support is opposite to the end portion (42) forming a connector, the end portions ( 42, 44) being interconnected by a median portion (46) of thinned section. 12. Device (10) according to the preceding claim, wherein the end portion (42) forming a connector is electrically connected to the battery (32) by at least one electrically conductive element arranged to extend longitudinally in the middle portion ( 46). The device (10) according to any one of claims 10 to 12, wherein the end portion (44) forming a carrier carries a near field communication antenna (62) arranged to extend around the battery ( 32) along the periphery of this portion (44). The device (10) according to any one of the preceding claims, wherein the battery (32) comprises a body (50) defining first (50A) and second (50B) opposite faces and a peripheral side wall (52), each face (50A, 50B) of the battery (32) is provided with at least one extension forming an electrical contact tab (54A, 54B) protruding from the body, the tongues (54A, 54B) being arranged in an offset position, one against the other following the peripheral wall (52) of the body (50) of the battery (32). 15. Device (10) according to the preceding claim taken with any one of claims 10 to 13, wherein the end portion (44) of the flexible member (34) forming a support comprises an orifice (56) arranged to receiving the battery (32) so that the tabs (54A, 54B) of the battery (32) each extend on one of the opposite faces of that portion (44). 16. Device (10) according to any one of the preceding claims, wherein the battery (32) is generally plate-shaped and has a thickness less than or equal to 150 microns.