FR2937162A1 - FLEXIBLE SAFETY VIGNETTE COMPRISING AT LEAST ONE MICROCIRCUIT - Google Patents

Abstract

The invention relates to a flexible security sticker comprising at least one microcircuit (8) fixed on one face (10) of a flexible support (1), a film (17) for compensation of thickness whose total height from the support (1) is smaller than the height of the microcircuit (8), a covering film (22) adhered to the thickness compensation film (17) and to each microcircuit (8) by a layer (23) of adhesive thermally-activatable at least partially compensating for the excess thickness (21) formed by each microcircuit (8), at least partially filling the space between each microcircuit (8) and the corresponding recess (19) of the compensation film (17). thickness, and forming a flexible coating compression and damper protecting each microcircuit (8) shocks.

Description

The invention relates to a flexible security sticker 5 comprising at least one microcircuit fixed on a flexible support. Throughout the text, the term "inscription" denotes any sign or pattern made on a face of an object-in particular a document-which can be read by the human being at least under certain conditions (especially under normal lighting in visible light), and / or under specific lighting, and / or after activation of an electronic device (screen) or other ...). It may be for example in particular texts (manual writing or printed characters); codes (ASCII, universal code with optoelectronic readings such as barcodes ...); images or photographs ...; or other information, which may also be at least partially represented by recordable digital data. The term antenna generally refers to any electrically conductive line for performing electromagnetic coupling - particularly inductive and / or magnetic - with another electromagnetic device. The term "vignette" refers to any article having the general form of a sheet of a size smaller than A4. A sticker may form a ticket, an adhesive label, a protective film, an insert intended to be placed between two layers or sheets ... The term "microcircuit" designates any device of size smaller than 5 mm × 5 mm × 1 mm forming an electronic circuit realized essentially according to integrated circuit technologies. It may be in particular a memory chip (ROM, RAM, EPPROM, flash ...), and / or microprocessor and / or wired logic, with or without other non-electronic functions or accessories (antenna) or several chips associated to form such a device. In many applications, and particularly in the field of official documents, and more particularly those allowing the identification of persons, it is useful to be able to associate at least one microcircuit with an object, for example to protect said object from attempts. falsification and / or to guarantee its authenticity and / or to guarantee the authenticity of the inscriptions carried by this object and / or to guarantee the integrity of such inscriptions. One of the solutions envisaged for this purpose is to manufacture a sticker incorporating at least one microcircuit, then, if necessary, to associate this sticker with another article manufactured to form the final object. This is the case for example in the field of so-called electronic official travel documents, such as passports or residence cards, for which the fact of having prefabricated stickers incorporating a microcircuit and can be incorporated into the document during its manufacture or after its manufacture, for example between the cover and the cover page of a passport, can lower production costs for small series, and modify documents already manufactured. Such a security label thus makes it possible to associate an object such as an official document with at least one microcircuit connected to at least one remote contactless transmission antenna of information and / or signals and / or energy be delivered and / or received by this microcircuit, so as to protect said official document from attempts to falsify, and / or to guarantee its authenticity, and / or to guarantee the authenticity of the inscriptions carried by this official document and / or to guarantee the integrity of such inscriptions. An official document can be for example a passport, a visa, an identity card, a driving license, a label, a legal act, a contract, a cadastral plan, a plan of manufacture or other plan ..., including at least one printable flexible sheet-especially paper-and incorporating information-especially bearing inscriptions to read such as variable mentions (names, first names, address, photos, ... of a holder or parties to a contract. ..) and / or common statements (security reasons, matrices, frames, field names, seals, holograms, ...) - to be protected against falsification attempts and / or for authentication purposes and / or for guarantee their integrity (that is, they have not been altered or modified). Various devices and methods are already known for associating at least one microcircuit with an official document, in particular with at least one remote contactless transmission antenna.

FR 2886038 describes for example a flexible anti-forgery security adhesive label comprising at least one microcircuit and at least one remote contactless transmission antenna associated with this microcircuit. This vignette is particularly well suited to the production of official documents bearing inscriptions to read, allows the use of standard microcircuits posed flip-chip, and provides enhanced protection against attempts to falsify. Furthermore, it has been proposed (see for example WO9917252) various multilayer structures comprising a chip housed in the thickness of this multilayer structure whose materials and thicknesses are chosen to obtain a cover resistant to mechanical and thermal shock. In practice, the retained materials (paper, latex, polymers, elastomers, ...) do not provide sufficient mechanical protection of the chip in the context of long-term use if the flexibility is preserved, as is now desired in official documents such as passports. In applications for official documents, as in many other applications, the manufacture of such vignettes involves simultaneously satisfying several contradictory constraints. The thumbnail must first be sufficiently flexible (in flexion) to be used (for example to allow manipulations involving necessarily creases or folds while having a sufficient life) and / or to be compatible with the processes subsequent manufacture of the object to which it is integrated (for example to allow its cold or hot rolling between a passport cover and the cover page) and / or to be compatible with the mechanical characteristics required for the object to which it is integrated. But, such a sticker must also provide sufficient mechanical protection for each microcircuit it incorporates so that the microcircuit also has a sufficient life, compatible with that of the sticker. For the latter reason, the known vignettes comprise thickness compensation layers or films, in particular of paper, of great thickness (greater than the total thickness of the microcircuit) and a recess formed through these layers or films to receive each microcircuit. Nevertheless, the inventors have determined that in practice such layers or thickness compensation films are rigid enough to protect the microcircuit, and then often affect the flexibility of the sticker, or rather remain flexible enough and do not provide not sufficient mechanical protection of the microcircuit. It should be noted in particular that a significant rigidity of the sticker also results in a low resistance to attempts to falsify by delamination. Indeed, it is all the easier to separate from each other superimposed layers that they are thick and rigid. Thus, the use of a thickness compensation layer or film whose thickness is greater than the total thickness formed by the microcircuit from the support makes the sticker particularly sensitive to falsification attempts.

Another disadvantage of known vignettes is that they are often very complex and / or expensive to manufacture. In this context, the invention aims to provide a flexible security sticker comprising at least one microcircuit fixed on a flexible support in which each microcircuit is sufficiently protected so that its operation is not disturbed by creasing, flexing, repeated compression of the vignette, the latter, however, remains for the most part sufficiently flexible in flexion. The invention also aims to propose such a vignette whose life is improved, and in particular is compatible with that of electronic official documents (passports, visas, identity cards, driving license, vehicle registration cards, cards bank cards, residence cards, access control cards or tickets, badges, labels, legal documents, contracts, cadastral plans, production plans or other plans, diplomas, administrative and / or identification and / or authentication certificates, ...) in which it can be incorporated and which must remain sufficiently flexible in flexion to be laminated and / or manipulated and / or worn by users. The invention also aims at providing such a sticker which, in addition, provides enhanced protection against forgery attempts, in particular which offers great resistance to attempts to dissociate the various layers of which it is composed, and in particular with which the separation of the upper layer likely to receive variable inscriptions is impossible or in any case much more difficult than with known vignettes. More particularly, the invention aims to provide such a sticker in which any attempt to separate the protective upper layer of the microcircuit results in destruction of the operation of this microcircuit. The invention also aims to provide such a sticker that is particularly simple and economical to manufacture and use. The invention also aims at providing such a sticker that is likely to be the subject of many applications, including for the production of official documents but also for the association of microcircuits to other objects, and therefore compatible with these different applications and with the corresponding corresponding manufacturing processes without requiring the implementation of complex specific processes.

To do this, the invention relates to a flexible security sticker comprising at least one microcircuit fixed on one side of a flexible support and at least one thickness compensation layer superimposed on the flexible support and which, for each microcircuit: ùpresent a recess receiving the microcircuit, which extends around said microcircuit, characterized in that it comprises: as a thickness compensation layer (s), a thickness compensation film whose total height from the support is less than the overall height formed by each microcircuit from the support, each microcircuit forming an excess thickness with respect to the thickness compensation film, an upper covering film covering the thickness compensation film and each microcircuit, is bonded to the thickness compensation film and to each microcircuit by a thermally-activatable adhesive layer, this adhesive layer hesitant heat-reactive having the effect of: o compensate at least partially the excess thickness formed by each microcircuit, so that this extra thickness is substantially not apparent from the outside of the covering film, o fill at least partially the space between each microcircuit and the corresponding recess of the thickness compensation film, o form a flexible coating in compression and damper protecting each microcircuit shocks. Advantageously and according to the invention, the covering film, said heat-activatable adhesive layer and the flexible support are at least substantially of the same size. In particular, advantageously and according to the invention, the heat-activatable adhesive layer is a solid continuous layer 20 of constant thickness. The same is true of the covering film. The flexible support is also advantageously a portion of continuous sheet full of constant thickness. Their sizes are at least substantially the same, that is to say that these different films and layers are superimposed by extending on the surface of each other according to the format of the sticker, even if an overhang 25 (withdrawal or overflow of low value) can be provided between two overlapping layers if necessary. Advantageously and according to the invention, the thickness compensation film is also at least substantially of the same format. The heat-activatable adhesive layer is heated and thus softened upon application of the coating film to the thickness compensation film. In doing so, the heat-reactive adhesive layer absorbs the excess thickness formed by each microcircuit, and is inserted at least partially in the space between each microcircuit and the corresponding recess of the thickness compensation film. After cooling, the heat-activatable adhesive layer regains its mechanical characteristics of elasticity. The material constituting the thermally-activatable adhesive layer must therefore be chosen so as to adhere to the compensation film and to each microcircuit, to allow on the one hand the hot application of the covering film on the compensation film ( with said compensation of excess thickness, and the creep in the space between each microcircuit and the corresponding recess of the compensation film), and, on the other hand, to obtain appropriate mechanical characteristics for the protection of each microcircuit at the same time. 'use. All thermally-activated adhesive compositions satisfying these conditions can therefore be used. Advantageously and according to the invention, said thermally-activatable adhesive layer consists mainly of at least one thermoplastic polymer material chosen from polyethylenes and PEIEVA copolymers. Furthermore, it should be noted that the thermally-activatable adhesive layer that fills the excess thickness formed by each microcircuit and the space between each microcircuit and the corresponding recess formed in the thickness compensation film therefore has the effect of maintaining and tangentially block the microcircuit relative to the flexible support, that is to say to prevent relative movement of the microcircuit parallel to the main face of the flexible support. This results in very great strength and reliability in the use of the sticker according to the invention. To obtain this effect, it is not necessary that the extra thickness formed by each microcircuit is very important value, since the slightest thickness has the effect of forming a shoulder providing such a tangential blocking. Advantageously and according to the invention, the extra thickness formed by each microcircuit relative to the thickness compensation film is between 15 m and 85 m. This allowance obviously depends on the one hand on the total height formed by the microcircuit relative to the flexible support, on the other hand on the total thickness of the thickness compensation film, and also on the thickness of the thickness. a possible intermediate layer that can be interposed between the face of the flexible support and the microcircuit. In addition, advantageously and according to the invention, said thermally-activatable adhesive layer has a thickness of between 10 m and 50 m, in particular of the order of 10 m to 20 m. Furthermore, advantageously and according to the invention, the assembly formed by the covering film and said thermally-activatable adhesive layer has a flexural flexibility greater than or equal to that of the flexible support. In this way, neither the covering film nor said layer of heat-activatable adhesive which connects it to the thickness compensation film and to the microcircuit, in any way affect the characteristics of flexibility of the sticker according to the invention. invention. Furthermore, advantageously and according to the invention, the thickness compensation film is bonded to the flexible support by means of a heat-activatable adhesive layer, called the second layer of heat-activatable adhesive. Again, any heat-activatable adhesive composition may be contemplated to form this second heat-activatable adhesive layer. Nevertheless, advantageously and according to the invention, the second layer of heat-activatable adhesive is similar to the first layer of heat-activatable adhesive for fixing the covering film on the thickness compensation film, and is also mainly composed of at least one thermoplastic polymer material selected from polyethylenes and PE / EVA copolymers. Advantageously and according to the invention, the thickness compensation film has a flexural flexibility as large as possible, in particular greater than or equal to that of the flexible support when the latter is formed of paper. Preferably, advantageously and according to the invention, the assembly formed by the thickness-compensating film and said second layer of heat-activatable adhesive, has a flexural flexibility as large as possible, in particular greater than or equal to that of the flexible support. when the latter is made of paper. Thus, in a vignette according to the invention, advantageously, when the flexible support forms paper, the flexibility of the flexible support essentially determines that of the sticker, that is to say that the covering film, the first layer of thermally-activatable adhesive which connects it to said thickness-compensating film, said thickness-compensating film, and said second layer of heat-activatable adhesive which connects it to the flexible support, as well as the assembly formed by the superposition of these layers and film, have a flexibility less than or equal to that of the flexible support. These characteristics in flexibility can be reached easily by a suitable choice on the one hand of the constituent materials, on the other hand relative thicknesses. Furthermore, when the flexible support is formed of synthetic material other than paper, the sticker according to the invention is generally of great flexural flexibility, less than that of a paper. When it is itself associated with at least one sheet of paper (by gluing or incorporation between several sheets of which at least one is made of paper) such as a passport page, it does not modify the flexibility of this sheet of paper. Advantageously and according to the invention, the materials constituting the covering film, the thickness compensation film and the flexible support are chosen from the group consisting of papers, synthetic papers, polyester films and polycarbonate films. and polypropylene films. Furthermore, advantageously, a sticker according to the invention comprises at least one remote transmission antenna of information and / or signals and / or energy, formed of a printed conductive ink (according to at least one band) on the face of the flexible support receiving each microcircuit fixed by bonding on this face, said transmission antenna being electrically connected to this microcircuit, and interposed between the flexible support and the thickness compensation film, in particular between the flexible support and said second 2937162 layer of heat-activatable adhesive. Thus, a sticker according to the invention incorporates at least one read and / or non-contact microcircuit. For example, a vignette according to the invention comprises a non-contact reading chip connected to an antenna formed of at least one strip printed on the flexible support by means of a conductive ink, in the form of turns (FIG. HF agreement) or other. Advantageously and according to the invention, at least one layer of varnish is interposed between the flexible support and said thickness compensation film locally around each microcircuit. This (these) layer (s) of varnish makes it possible to wedge the microcircuit height with respect to the flexible support, as a function of the thickness of the microcircuit used, and according to the characteristics required elsewhere for the sticker, so as to obtain a predetermined thickness value with respect to said thickness compensation film. The thickness of varnish thus formed can for example vary from 8 m to 60 m, to obtain the desired thickness, without modifying the characteristics of the other elements of the sticker according to the invention. A sticker according to the invention can be used as such, for example incorporated between two sheets laminated one on the other, in particular between the cover of a booklet such as a passport and the cover page laminated inside. of this cover. It then constitutes a flexible insert for incorporating at least one read-only and / or non-contact-type microcircuit into a booklet such as a passport. Nothing prevents, however, to provide that a sticker according to the invention is in the form of an adhesive label. In this case, advantageously, a sticker according to the invention comprises at least one adhesive layer 25 on one side of the flexible support opposite to that receiving each microcircuit, so as to allow it to be bonded to a substrate. This layer of adhesive may be disposed on one side and / or the other of the flexible support. It may be a pressure-sensitive adhesive, or a hot-activatable adhesive, or other suitable adhesive composition.

This layer of adhesive is advantageously formed of a cold-pressure-sensitive adhesive, so that the characteristics of said layers of heat-activatable adhesive are not affected during the application and sticking of the adhesive label on a surface. substrate.

Advantageously, a sticker according to the invention has a size less than A4. Thus, advantageously and according to the invention, said flexible support is formed of a sheet of size less than A4. The invention also relates to a label characterized in combination by all or some of the characteristics mentioned above or below. Other aims, features and advantages of the invention appear on reading the following description of an embodiment of the invention given by way of non-limiting example, which refers to the appended figures in which: FIG. 1 is a diagrammatic sectional view of a sticker according to one embodiment of the invention, FIG. 2 is a diagrammatic view from above showing a step of manufacturing a sticker according to FIG. 1. In FIGS. thicknesses are exaggerated, and the scales are not respected, and this for the purposes of illustration. A vignette according to the invention firstly comprises a flexible support 1 defining the overall format of the sticker, which is smaller than the A4 size and adapted to the intended use of the sticker, in particular corresponding substantially to that of a cover of passport, for example of the order of 100 mm x 135 mm. The flexible support may for example be formed of a sheet of paper, in particular of 90 g / m 2 having a thickness of the order of 110 m, or of a sheet of synthetic paper (formed of synthetic fibers, in particular from less a polymeric material, incorporated in a thermoplastic matrix, in particular acrylic) having a thickness of the order of 100 m, or a sheet of polyester, polycarbonate, or other flexible plastic material.

On a main face 10 of this flexible support 1, are printed with a conductive ink, at least one band, in particular a plurality of concentric turns for a tuning frequency HF- forming a contactless transmission antenna 2 remote. The characteristics, shapes and dimensions of this transmission antenna 2 are adapted according to the application envisaged, in particular as a function of the operating frequency, the nature of the information and / or the signals and / or the energy to be used. exchange via this transmission antenna 2, the range that the transmission antenna 2 must present ...

The transmission antenna 2 is in particular made to have a suitable tuning frequency, for example of the order of 13.56 MHz. This HF frequency corresponds to the standards ISO 15693, ISO 14443 A and ISO 14443 B. As a variant, the tuning frequency of the transmission antenna 2 can be chosen in the UHF band (between 850 MHz and 1000 MHz), according to ISO 18000-6, ISO 18046 and ISO 18047, or in the field of microwaves. In order to obtain the appropriate tuning frequency, the dimensions (in particular the width and the thickness) of the conductive ink band forming the transmission antenna 2 are adjusted, as well as the topology of the band in a manner that is well known per se. . For example, to print this transmission antenna 2, it is possible to use a solvent-based conductive ink composition reference 5029, marketed by the company of the Pont de Nemours (Bristol, Great Britain). This conductive ink may be printed by any known method, for example by screen printing in one or more successive steps. In the example shown, the transmission antenna 2 has rectangular turns extending near the peripheral edge of the flexible support 1. Nothing prevents to provide an antenna 2 HF formed of turns of another shape, for example circular or other, or an antenna 2 adapted for a UHF frequency (for example in the form of a coil) or for a microwave frequency. The conductive strip forming the transmission antenna 2 has two ends 3, 4 arranged close to each other, in particular, in the case of turns, a first internal end 3 and a second external end 4. A band of electrically insulating varnish 5 (in one or more layers) covers the turns near the outer end 4, and this strip of insulating varnish 5 is covered with a connecting strip 6 of electrically conductive ink connected to the outer end 4 and whose opposite end 7 is in the immediate vicinity of the inner end 3 of the turns forming the antenna 2, so that these ends 3, 7 which are adjacent constitute connection terminals 3, 7 for a microcircuit 8. Simultaneously with the printing of the insulating varnish strip 5, a wedging thickness 15 formed by one or more layers of the same insulating varnish is deposited locally around the connection terminals 3, 7. Each layer of insulating varnish has a thickness that can vary between 8 m and 30 m, so that the thickness of wedging 15 can have a thickness of between 8 and 30 m if a single layer is provided, or between 30 m and 60 m. m if two layers are superimposed to form this wedging thickness 15. More than two layers can be provided to form the wedging thickness 15. A reserve 16 is formed in the wedging thickness 15 to allow the passage of the connection terminals microcircuit 8 and their contact with the connection terminals 3, 7 of the antenna. The microcircuit 8 can be fixed by an insulating adhesive 9 to the flexible support 1 between the two connection terminals 3, 7 according to a so-called flip-chip assembly in a manner well known per se. The microcircuit 8 is for example a chip marketed under the brand Smartmx 72 KB microprocessor by the company NXP (Graz, Austria); or a chip marketed under the trademark Picopass 4 kb memory by the company Inside (Aix-en-Provence, France); or any other microcircuit suitable for the use of the sticker. A film 17 of thickness compensation is applied to the flexible support 1, on the face 10, above the antenna 2 previously formed, via a layer of heat-activatable adhesive, called the second layer of heat-activatable adhesive 18, with a reserve formed through the thickness of said thickness compensation film 17 and the second layer of heat-activatable adhesive 18, so as to form a recess 19 for the passage of the microcircuit 8. The film 17 the thickness compensator and the second layer of heat-activatable adhesive 18 may be applied simultaneously, and are then previously associated with each other in the form of a complex comprising a layer of paper and a layer of at least one thermoplastic polymer material selected from polyethylenes and PE / EVA copolymers as heat-activatable adhesive. The paper layer is for example formed of a paper of 120 g / m 2, having a thickness for example of the order of 145 gm, and the polyethylene layer is for example 20 g / m 2, having a thickness for example of the order of 20 gm. The assembly 17, 18 formed by this complex is for example 140 g / m 2 and has, before application, a total thickness for example of the order of 165 gm. After application, the total thickness formed by this assembly 17, 18 relative to the face 10 of the flexible support 1, is slightly lower due to the compression of the second layer 18 of heat-activatable adhesive, and is for example order of 150 gm. The microcircuit 8 has a total thickness, including its connection terminals, of the order of 180 gm to 250 gm. After application and connection to the connection terminals 3, 7, the microcircuit 8 thus has an extra thickness 21 with respect to the film 17 of thickness compensation, and this extra thickness 21, which has a value which depends in particular on the thickness of wedging 15 is for example advantageously between 15 gm and 85 gm. The film 17 thickness compensation and the microcircuit 8 after application and connection, are covered with a film 22 covering, through a layer of heat-activatable adhesive, said first layer 23 of heat-activatable adhesive. The cover film 22 and the first heat-activatable adhesive layer 23 may also be previously associated with each other as a complex applied simultaneously over the thickness compensation film 17. For example, the covering film 22 is formed from a sheet of paper of 45 g / m 2, having a thickness of about 65 mistletoe, and the first layer 23 of heat-activatable adhesive is formed of a layer of polyethylene 15 g / m2 having a thickness of the order of 15 m. The covering film 22 and the first layer 23 of heat-activatable adhesive are not hollowed out facing the recess 19, above the microcircuit 8, so that they cover this recess 19 and this microcircuit 8. The first layer 23 at least partially compensates for the space between the microcircuit 8 and the thickness compensation film 17 in the recess 19. After cooling the first layer 23 of adhesive thermoreversible, the excess thickness 21 is compensated and no longer appears, but the microcircuit 8 is blocked by its portion extending inside the thickness of the layer 23 of heat-activated adhesive, blocked by the latter relative to the support flexible 1 because the layer 23 of heat-activatable adhesive is bonded to the upper surface of the microcircuit 8, and thanks to the part of the layer 23 of heat-activatable adhesive q It is inserted laterally between the microcircuit 8 and the recess 19. The microcircuit 8 is held firmly in place and protected from shocks and compressive stresses. It should be noted that the excess thickness 21 may also be partly compensated by the film 22 for covering, and not only by the first layer 23 of heat-activatable adhesive. This is particularly the case when the thickness of the heat-activatable adhesive layer 23 is slightly less than that of the excess thickness 21, and the covering film 22 is formed of a paper capable of deforming slightly compression to absorb the leftover surplus 21 to compensate. Each of the complexes 17, 18 and 22, 23 may be formed for example by extrusion of a layer 18, 23 of polyethylene and / or PE / EVA copolymer on the corresponding layer 17, 22 of paper or other. It should be noted that each layer 23, 18 of thermo-activatable adhesive of polyethylene and / or PE / EVA copolymer is flexible, and in particular more flexible than the flexible support 1, so that it does not modify its flexibility, unlike a layer of glue or conventional adhesive (such as a glue type hot meit, or a glue called PVA). In the same way, the films 17 for compensation of thickness and 22 for covering are preferably chosen and made to have a flexibility greater than or equal to that of the flexible support 1, at least when the latter is formed of paper. The vignette thus obtained can be used as it is, for example to be inserted between the cover and the front page of a passport or in a pocket of an identity card consisting of two films welded one on the other. In variant not shown, nothing prevents to provide an adhesive layer, in particular a layer of adhesive sensitive to cold pressure, covering the face of the flexible support 1 opposite to the face 10 receiving the microcircuit 8, so as to obtain an adhesive sticker. The invention can be the subject of many different embodiments with respect to the embodiment shown in the figures and the examples described above. For example, nothing prevents the flexible support 1, the thickness-compensating film 17 and the covering film 22 from being made of a material other than paper, and being made, for example, of synthetic paper , polypropylene, polyester, polycarbonate, polymethacrylate, polyamide ... The flexible support 1 and the various films can be made of materials of the same kind, or otherwise different materials, for example a flexible support 1 polyester , a thickness-compensating film 17 of polypropylene or polyester and a film 22 of paper covering. Also, this flexible support 1 and these various films 17, 22 may be formed of a single layer or of several superposed layers. They can incorporate different security elements, for example photoluminescent and / or iridescent patterns and / or effects varying depending on the viewing angle and / or embrittlement and / or holograms and / or patterns preventing reproduction by optical reading or others. They can be opaque, transparent or translucent, depending on the application. Similarly, each layer of heat-activatable adhesive 18, 23 may be formed of a material other than a polyethylene and / or a PE / EVA copolymer, for example a polyurethane, a polycarbonate, or PVC. A sticker according to the invention can be used for example as an insert in a passport to incorporate a microcircuit in this passport, between the cover and the cover page of the latter. The sticker is then imprisoned between the cover and the cover page, this cover and this cover page being laminated one on the other, the sticker interposed between them. A vignette according to the invention does not modify the flexibility of this cover.

A vignette according to the invention may nevertheless be the subject of other applications, for example as an insert with a non-contact reading microcircuit in an identity card covered on both sides by films of protective synthetic materials. welded to each other. A vignette according to the invention may also be the subject of other applications in which the same problems arise.

Claims (1)

CLAIMS 1 / - Flexible security label comprising at least one microcircuit (8) fixed on one face (10) of a flexible support (1) and at least one thickness compensation layer superimposed on the flexible support (1) and which for each microcircuit (8): a recess (19) receiving the microcircuit (8) extends around said microcircuit (8), characterized in that it comprises: 10 as a compensation layer (s) of thickness, a film (17) thickness compensation whose total height from the support is less than the overall height formed by each microcircuit (8) from the support, each microcircuit (8) forming an extra thickness ( 21) relative to the thickness compensating film (17), an upper covering film (22) covering the thickness compensation film (17) and each microcircuit (8), and adhered to the film ( 17) and each microcircuit (8) by a layer (23) of heat-activatable adhesive, this layer (23) of heat-reactive adhesive having the effect of: o compensating at least partially the excess thickness (21) formed by each microcircuit (8), so that this extra thickness ( 21) is substantially not apparent from the outside of the covering film (22), at least partially filling the space between each microcircuit (8) and the corresponding recess (19) of the film (17). ) compensation thickness, o form a flexible coating in compression and damper protecting each microcircuit (8) shocks. 2 / - Vignette according to claim 1, characterized in that the film (22) of covering, said layer (23) of heat-activatable adhesive and the flexible support (1) are at least substantially the same format.3 / - Vignette according to claim 2, characterized in that the thickness compensation film (17) is also at least substantially of the same size. 4 / - Vignette according to one of claims 1 to 3, characterized in that said layer (23) of heat-activated adhesive consists mainly of at least one thermoplastic polymer material selected from polyethylenes and PE / EVA copolymers. 5 / - Vignette according to one of claims 1 to 4, characterized in that the extra thickness (21) formed by each microcircuit (8) relative to the film (17) compensation thickness is between 15 gm and 85 m. 6 / - Vignette according to one of claims 1 to 5, characterized in that said layer (23) of heat-activated adhesive has a thickness of between 10 gm and 50 m -not of the order of 10 m to 20 m- . 7 / - Vignette according to one of claims 1 to 6, characterized in that the assembly formed by the film (22) covering and said layer (23) of heat-reactive adhesive, has a flexural flexibility greater than or equal to that of the flexible support (1). 8 / - Vignette according to one of claims 1 to 7, characterized in that the thickness compensation film (17) is glued on the flexible support (1) via a layer (18) of heat-activatable adhesive, said second layer (18) of heat-activatable adhesive. 9 / - Vignette according to one of claims 1 to 8, characterized in that the constituent materials of the film (22) covering, the film (17) thickness compensation and the flexible support (1) are chosen in the group consisting of papers, synthetic papers, polyester films, polycarbonate films and polypropylene films. 10 / - Vignette according to one of claims 1 to 9, characterized in that it comprises at least one antenna (2) remote transmission of information and / or signals and / or energy, formed of an imprinting device printed on the face (10) of the flexible support (1) receiving each microcircuit (8) fixed by bonding on this face (10), said transmission antenna (2) being electrically connected to this microcircuit (8), and interposed between the flexible support (1) and the thickness compensation film (17). 11 / - Vignette according to one of claims 1 to 10, characterized in that at least one layer (15) of varnish is interposed between the flexible support (1) and said thickness compensation film (17) locally around of each microcircuit (8). 12 / - Vignette according to one of claims 1 to 11, characterized in that it comprises at least one layer of adhesive on one face (10) of the flexible support (1) opposite to that receiving each microcircuit (8), so as to allow it to be bonded to a substrate. 13 / - Vignette according to one of claims 1 to 12, characterized in that said flexible support (1) is formed of a sheet size less than A4.