FR2916559A1 - Flexible safety vignette for e.g. passport, has peripheral reinforcement chip comprising recess for receiving microcircuit, where chip is extended around microcircuit according to format lower than that of flexible support - Google Patents

Abstract

The vignette has a microcircuit (8) fixed on a flexible support (1), and a peripheral reinforcement chip (9) comprising a recess (19) for receiving the microcircuit. The chip is extended around the microcircuit according to a format lower than that of the flexible support. The thickness of an assembly formed by the chip around the microcircuit is greater than that of assembly formed by the microcircuit from the flexible support.

Description

FLEXIBLE SAFETY VIGNETTE COMPRISING AT LEAST ONE MICROCIRCUIT AND

  The invention relates to a flexible security sticker comprising at least one microcircuit fixed on a flexible support. It extends to an official document including at least one such vignette. Throughout the text, the term "vignette" refers to any item having the general shape of a sheet of a size smaller than A4. A sticker can 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 less than 5 mm × 5 mm × 1 mm forming a electronic circuit realized essentially according to the technologies of the integrated circuits. It may be in particular a memory chip (ROM, RAM, flash EPROM ...), and / or microprocessors 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 people, it is useful to be able to associate at least one microcircuit to an object, for example to protect said object attempts to 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. For some applications, the thumbnail itself can be used as an end object (for example when it is a ticket).

  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. Also, WO 02/089052 proposes a multilayer structure such as a booklet cover paper, including a passport, comprising a chip housed in the thickness of this multilayer structure whose materials and thicknesses are chosen to obtain a shock-resistant cover mechanical and thermal. In practice, the materials retained in this document (latex, polymers, elastomers, etc.) do not make it possible to provide sufficient mechanical protection for the chip in the context of long-term use if the flexibility of the paper is preserved, as is now desired in passports.

  In these applications, as in many other applications, the manufacture of such vignettes involves simultaneously satisfying two 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 hot rolling between a passport cover and the cover page) and / or to be compatible with the mechanical characteristics required for the object in which it is integrated . However, 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, 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. Another disadvantage of known stickers, especially those previously known from FR 2886038, 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 at providing such a sticker whose life is improved, and in particular is compatible with that of flexible electronic official documents (passports, visas, identity cards, driving license, vehicle registration cards, residence cards, access control tickets, badges, labels, legal documents, contracts, cadastral plans, production plans or other plans, diplomas, administrative and / or identification and / or authentication certificates, etc.) 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 to provide such a sticker which 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 a flexible support and at least one thickness compensation layer which, for each microcircuit: - has a recess receiving the microcircuit, - s' extends around said microcircuit, characterized in that at least one thickness compensation layer, said layer 15 of peripheral reinforcement, extends around the microcircuit in a format less than that of the flexible support. Advantageously and according to the invention, each peripheral reinforcing layer extends in an area less than or equal to 25% of the area of the flexible support. As a result, the assembly formed by each reinforcing layer has a small or negligible impact on the overall flexibility of the sticker in the invention. The absolute value of the total area over which the assembly formed by each reinforcing layer extends over the flexible support depends on the dimensions of this flexible support and the applications to which the sticker according to the invention is intended. More particularly, advantageously and according to the invention, each peripheral reinforcing layer extends in an area of less than 10 cm 2. In an advantageous variant, a sticker according to the invention is characterized in that it comprises, around each peripheral reinforcing layer, at least one format compensation layer extending: around said peripheral reinforcing layer up to at a format corresponding at least substantially to that of the flexible support, and by forming a total thickness greater than or equal to that of said peripheral reinforcing layer, and in that the assembly formed by each peripheral reinforcing layer has a rigidity in bending greater than that of the assembly formed by each format compensation layer. In this variant, it is therefore the superior rigidity conferred locally by the assembly formed by each peripheral reinforcing layer which makes it possible to protect the microcircuit, the assembly formed by each format compensation layer preserving the characteristics of flexibility of the sticker. beyond each layer of peripheral reinforcement. The flexural and compressive rigidity characteristics of each format compensation layer are chosen and adapted according to the final characteristics desired for the sticker according to the invention. Preferably, the assembly formed by each format compensation layer has a bending stiffness less than or equal to that of the flexible support. Similarly, advantageously and according to the invention, the assembly formed by each peripheral reinforcing layer has a compression stiffness greater than that of the assembly formed by each format compensation layer. Nevertheless, there is nothing to prevent, in certain applications, one or more format compensation layers whose flexural and / or compressive rigidity is intermediate between that of the flexible support and that of the assembly formed by each reinforcing layer. peripheral. In one embodiment, a sticker according to the invention comprises at least one layer of lacquer as a format compensation layer. Alternatively or in combination, a sticker according to the invention comprises at least one adhesive layer as a format compensation layer. Nothing prevents to provide one or more layers of peripheral reinforcement whose thickness is less than that of the microcircuit, the protection of the latter may for example be reinforced by a film or sheet to cover the assembly. However, preferably, advantageously and according to the invention, the assembly formed by each peripheral reinforcing layer has a total thickness greater than or equal to that of the microcircuit-in particular between 100 m of 150 gm-.

  Preferably, the thickness of the assembly formed by each thickness compensation layer, including each peripheral reinforcing layer, is greater than or equal to the thickness presented by the microcircuit and its connection relative to the flexible support. In a preferred embodiment of the invention, each thickness compensation layer is a peripheral reinforcing layer extending around the microcircuit in a format less than or equal to that of the flexible support, and the assembly formed by each layer. peripheral reinforcement around the microcircuit has a thickness greater than that formed by the microcircuit from the flexible support. In other words, only the assembly formed by each peripheral reinforcing layer surrounds the microcircuit. The absolute value of the total thickness of the assembly formed by each peripheral reinforcing layer therefore depends in practice on the thickness formed by the microcircuit and its connection to the flexible support. The mere presence of at least one such peripheral reinforcing layer around a microcircuit makes it possible locally to reinforce the flexible support at the peripheral edge of this microcircuit, and thus to protect this microcircuit and its electrical connection against shocks, compressions and inflections suffered by the vignette. The assembly formed by each peripheral reinforcing layer around the microcircuit can be left isolated, in excess thickness.

  According to one embodiment of the invention, the sticker comprises, as a layer (s) of peripheral reinforcement, at least one peripheral reinforcing strip of varnish printed in at least one layer around the microcircuit. In another advantageous embodiment, a vignette according to the invention comprises, as a layer (s) of peripheral reinforcement, a patch 7 of peripheral reinforcement adhering to the flexible support around a microcircuit and of a size smaller than that of the flexible support. Such a pellet is advantageously formed of a bonded part (by a cold pressure sensitive adhesive, ie a self-adhesive, or a hot-activatable adhesive or otherwise) on the flexible support. Moreover, advantageously and according to the invention, said pellet is formed of a material chosen from the group comprising polyesters, polymethacrylates, polycarbonates, polystyrenes, polyethylenes, polypropylenes and polyamides. More particularly, preferably, and according to the invention, this material is selected from the group consisting of polyesters, polycarbonates and polypropylenes. In particular, this pellet is not formed of a polyvinyl chloride, such a material being either too soft or too rigid, and not retaining its properties over time. Good results have been obtained with a pellet made of polyester.

  The assembly formed by each peripheral reinforcing layer, and in particular said wafer, may have any shape suitable for the intended application of the vignette in the invention. Advantageously, the assembly formed by each peripheral reinforcing layer is in the general disc or polygonal form and / or has a broken or corrugated contour or the like. Likewise, the general dimensions of this assembly - in particular of this tablet - are variable according to the intended application of the sticker according to the invention. In an advantageous embodiment, the assembly formed by each peripheral reinforcing layer - in particular said tablet - has an overall width of between 10 mm and 30 mm, in particular of the order of 20 to 25 mm.

  Furthermore, advantageously a sticker according to the invention is also characterized in that it comprises at least one remote transmission antenna information and / or signals and / or energy, formed of turns of a conductive ink printed on one side of the flexible support receiving a microcircuit fixed by bonding on this face, said transmission antenna being electrically connected to this microcircuit, and in that the total thickness formed by the 8 compensation layer (s) thickness from said face of the flexible support is greater than or equal to that of the assembly. For example, a sticker according to the invention comprises a non-contact reading microcircuit connected to an antenna formed of turns printed on the flexible support using a conductive ink.

  Advantageously and according to the invention, this microcircuit is mounted on the flexible support by bonding with its connection terminals coming directly into contact with the connection pads of the antenna printed on the flexible support (flip-chip type mounting). In a sticker according to the invention, the flexible support can be made of any suitable material depending on the intended application of this sticker. For example, the flexible support is formed of a flexible sheet of size less than A4 in a flexible material (neither rigid nor semi rigid) selected from the group formed of papers and polyester films. Advantageously and according to the invention, said flexible support has a thickness of less than 150 μm, in particular of the order of 100 μm. In addition, advantageously and according to the invention, the sticker also comprises at least one layer of external adhesive so as to be in the form of an adhesive label. 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 of a heat-activatable adhesive or other suitable adhesive composition. The invention also extends to an official document - in particular passport, driving license, vehicle registration certificate, diploma, administrative certificate and / or identification and / or authentication, contract-, characterized in that it comprises at least one sticker according to the invention. Such a sticker can be applied to one side of a printable flexible sheet - particularly paper - of this official document. An official document according to the invention comprises at least one peripheral reinforcing layer extending around at least one microcircuit fixed on said first face in a format smaller than that of said first sheet. Preferably, the assembly formed by each layer 9 of peripheral reinforcement has from said first face of said first sheet, a total thickness greater than or equal to that of the microcircuit from said first face of said first sheet. The invention relates more particularly to such an official document in the form of a notebook, for example a passport. In this case, the sticker can be incorporated into a cover in the notebook by forming for example one of the inner layers of this cover. The invention also relates to a sticker and an official document characterized in combination by all or some of the characteristics mentioned above or below. Other objects, features and advantages of the invention appear on reading the following description giving as non-limiting examples several embodiments of the invention, and which refers to the appended figures in which: FIG. 1 is a top view of a sticker according to a first embodiment of the invention, FIG. 2 is a sectional diagram of the sticker of FIG. 1, FIG. 3 is a sectional diagram illustrating FIG. a second embodiment of the invention; FIG. 4 is a sectional diagram illustrating a third embodiment of the invention; FIG. 5 is a sectional diagram illustrating a fourth embodiment of the invention; . In the figures, the thicknesses are exaggerated, and the thickness scales are not respected, for illustrative purposes. The vignette shown in FIGS. 1 and 2 according to the first embodiment of 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 to one another, the sticker interposed between them. Such a sticker may nevertheless be the subject of other applications, for example as an access ticket with a non-contact reading microcircuit.

  This vignette firstly comprises a flexible support 1 defining the overall format of the sticker, smaller than the A4 size and adapted to the intended use of the sticker. In the example shown, the flexible support may be formed of a sheet of paper, for example 90 g / m2 or polyester or other flexible synthetic material, of a size smaller than that of a passport cover (88 mm x 125 mm), for example of the order of 60 mm x 90 mm. In other examples, the format of the flexible support 1 may be slightly greater than that of a passport cover so that it can then be cut exactly to this format. On this flexible support 1, are printed with a conductive ink a plurality of concentric turns forming a non-contact transmission antenna 2 remote. The characteristics 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 exchanged by by means of this transmission antenna 2, the range that the transmission antenna 2 must have ... Advantageously, the transmission antenna 2 is designed to have a tuning frequency of the order of 13 , 56 MHz. This frequency corresponds in particular to the standards ISO 15693, ISO 14443 A and ISO 14443 B. To obtain this frequency, the width and the thickness of the conductive ink strip forming the transmission antenna 2, as well as the size, are adjusted. turns and the distance between the turns in a manner well known per se. This conductive ink may be printed according to any known method, for example by screen printing in one or more successive steps. For example, to print this transmission antenna 2, using a solvent-based conductive ink composition 5029 reference marketed by the company of the Pont de Nemours (Bristol, Great Britain) printed in screen printing. In the example shown, the turns are of generally rectangular shape extending near the peripheral edge of the flexible support 1. Nothing prevents to provide an antenna 2 formed of turns of another shape, for example circular or other.

  The turns forming the transmission antenna 2 have a first inner end 3 and a second outer end 4, these two ends 3, 4 being close to one another. An electrically insulating varnish strip 5 covers the turns near the outer end 4, and this insulating varnish strip 5 is covered with a connecting band 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. This microcircuit 8 can -be fixed by an adhesive (electrically insulating or conductive) on the flexible support 1 between the two connection terminals 3, 7 according to a so-called flip-chip type of mounting well known per se. The microcircuit 8 is for example a chip marketed under the brand Smartmx 72 KB microprocessor by Philips Europe (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. To locally reinforce the vignette around the microcircuit 8, an adhesive patch 9 for peripheral reinforcement is applied to the flexible support 1 above the microcircuit 8 covering the underlying portions of the antenna 2. The patch 9 has a recess 19 housing the microcircuit 8 so as not to create extra thickness above the microcircuit 8. To facilitate the manufacture of the chip 9, this recess 19 may be formed of a simple light 19 of shape corresponding to that of the microcircuit 8 and traversing the thickness of the pellet 9 in the central part. 12 This pad 9 of peripheral reinforcement has a total thickness (including the adhesive layer for securing it to the flexible support 1) slightly greater than that formed by the antenna 2, the microcircuit 8 and the glue which fixes it on the flexible support 1, so that the free upper face 10 of the chip 9 is located, with respect to the flexible support 1, at a level slightly greater than the free upper face 11 of the microcircuit 8. Consequently, the patch 9 of peripheral reinforcement performs a thickness compensation around the microcircuit 8. By way of example, the pellet 9 has a total thickness of between 100 m and 250 m, typically of the order of 180 m.

  The format of the tablet 9 is less than that of the flexible support 1. In fact, the dimension given to the tablet 9 is sufficient to locally reinforce the sticker around the microcircuit 8, taking into account the mechanical requirements for the sticker, but also low as much as possible, to preserve the flexibility of the flexible media 1.

  In practice, a chip 9 extending laterally around the microcircuit 8 in all directions over a distance of between one and three times the width of the microcircuit 8 provides excellent results. Thus, the tablet 9 may have an overall overall width of between 10 mm and 30 mm, in particular of the order of 20 to 25 mm -1. The pellet 9 may have any suitable shape, for example, perhaps in the general form of a disk or drop, or polygonal or other shape. The pad 9 of peripheral reinforcement thus extends in an overall area of less than 10 cm 2 and less than 25%, preferably less than 10%, of the area of the flexible support 1.

  The constituent material of the pellet 9 is chosen as a function of the properties required for this pellet 9, namely a good compressive strength, and a flexural rigidity sufficient to protect the microcircuit 8 without impairing the flexibility properties required for the sticker. . Preferably, the pellet 9 has a bending stiffness greater than or equal to that of the flexible support 1. This superior rigidity can first be conferred by a greater thickness. It can also be the result of choosing a different material. Advantageously and according to the invention, the pellet 9 is formed of a material chosen from the group comprising polyesters, polymethacrylates, polycarbonates, polystyrenes, polyethylenes, polypropylenes and polyamides. Preferably, a polyester or a polymethacrylate or a polypropylene is chosen. For example, the wafer 9 may be formed from a 50 m to 150 m thick polyester sheet with a 40 m to 125 m thick transfer adhesive layer. The vignette thus obtained according to the first embodiment of the invention shown in Figures 1 and 2 can be used as such, for example to be inserted between the cover and the cover page of a passport. The second embodiment shown in FIG. 3 differs from the previous one only in that the microcircuit 8, the chip 9 and the transmission antenna 2 are moreover covered with an adhesive sheet 12, 13. This adhesive sheet 12, 13 comprises a reinforcing sheet 12, for example formed of a paper, a polyethylene, a polyester or other, cut in a format corresponding at least substantially to that of the flexible support 1. This sheet 12 is glued on the flexible support 1 through an adhesive layer 13, which may be a cold pressure sensitive adhesive or a hot rolled or other adhesive. The adhesive layer 13 completes laterally the pellet 9 to the format of the flexible support 1 and at least a portion of the thickness of this pellet 9. It thus constitutes a format compensation with respect to the pellet 9. Preferably, this layer of adhesive 13 has, once laid, a thickness greater than 100 m. In addition, the total thickness of the adhesive sheet 12, 13 from the flexible support 1 is, once laid, greater than or equal to that of the wafer 9. Advantageously, this adhesive sheet 12, 13, and especially the layer adhesive 13, is adapted to be locally deformable in compression to absorb the extra thickness formed by the pellet 9.

  The adhesive sheet 12, 13 preferably has a flexural stiffness lower than that of the pellet 9. In addition, its flexural rigidity is also less than or equal to that of the flexible support 1 so as not to substantially modify the flexibility in bending of the vignette according to the invention.

  This adhesive sheet 12, 13 makes it possible, on the one hand, to compensate the format of the tablet 9, on the other hand to reinforce the sticker according to the invention and to protect the antenna 2. In the embodiment shown, the sheet 12 , 13 is also provided with a through-light 14 at the right of the microcircuit 8, which allows the installation of the microcircuit 8 last, after the application of the sheet 12, 13. Nothing prevents alternatively to apply this adhesive sheet 12, 13 last, in which case the light 14 is not necessary. The third embodiment of the invention shown in FIG. 4 differs from the previous embodiment in that the flexible support 1 is provided, on its face opposite to that receiving the microcircuit 8, with an adhesive layer 15 protected by a detachable sheet. 16, for example a sheet of silicone paper. This adhesive layer 15 may be formed of a cold pressure sensitive adhesive or a heat activatable adhesive or the like. The sticker according to the invention according to this third embodiment is therefore an adhesive label. For example, it can be pasted on a passport page.

  In the example shown in FIG. 4, the sticker according to the invention also comprises security reasons 17 which are anti-falsification and / or authentication and / or non-reproducible by optical scanning or the like. These security reasons 17 may be printed on the outer face of the adhesive sheet 12, 13 covering the wafer 9 and / or between the sheet 12 and the adhesive layer 13 when the sheet 12 is formed of a transparent synthetic material. For example, such security reasons 17 are holograms and / or patterns as described by US-6336666 and / or US-6494490 and / or US-6592972 or FR-2675742. Such security reasons may be provided in all embodiments of the invention. They can also be incorporated between several layers of the vignette. Also, it should be noted that in the example shown in FIG. 4, the sheet 12, 13 also covers the microcircuit 8, the adhesive layer 13 penetrating into the space between the central lumen 19 of the tablet 9 and the microcircuit 8. In this way, the protection of the microcircuit 8 is enhanced. On the other hand, FIG. 41 also shows a flexible support 1 which is formed of a sheet of synthetic material, for example a polyester sheet. The fourth embodiment of the invention shown in FIG. 5 is similar to the first embodiment. Nevertheless, in this fourth embodiment, the insulating varnish strip 5 is applied over the entire surface of the turns forming the transmission antenna 2 (and not only locally to overlap these turns from the outer end 4). Moreover, in the fourth embodiment shown, the pellet 9 is replaced by two pellets 9a, 9b laminated one on the other. The first chip 9a bonded to the flexible support 1 extends laterally over a larger area than the second chip 9b bonded to the first chip 9a. The fact of superimposing several pellets or peripheral reinforcement layers around the microcircuit 8, with distinct radial dimensions from this microcircuit 8, makes it possible to adapt the bending stiffness properties by forming a decreasing gradient gradient starting from the microcircuit 8.

  In addition, the assembly is covered with a layer of adhesive 18, whose format corresponds substantially to that of the flexible support 1, and which forms in particular a format compensation around the wafer 9. This layer of adhesive 18 may be formed of a cold pressure sensitive adhesive or a heat activatable adhesive or the like. It has a thickness, from the flexible support 1, greater than or equal to that of the pellet 9. The adhesive layer 18 may also be protected by a release sheet such as a silicone paper. The sticker according to this fourth embodiment of the invention is therefore also an adhesive label. The invention can be the subject of many different embodiments with respect to the various embodiments shown in Figures 16 whose characteristics can be combined. For example, each pellet 9 may be replaced by one or more layer (s) of varnish and / or adhesive applied by printing, in particular by screen printing. For example, it may be provided one (or more) layer (s) of varnish forming a peripheral reinforcing strip -in particular may have a thickness of about 35 m- surrounding the microcircuit 8. This band of peripheral reinforcement can- to be formed simultaneously and with the same varnish composition as the insulating varnish strip 5 which covers the turns of the antenna 2. Its thickness is less than that of the microcircuit 8. Nevertheless, an adhesive sheet 12, 13 can be placed overlay microcircuit (as in the examples shown in Figures 3 and 4) and the peripheral strip, the adhesive layer 13 completing the thickness compensation by deforming to receive the projecting portion of the microcircuit 8, without creating visible extra thickness. Nothing prevents to provide in a sticker according to the invention that a compensation layer of only a portion of the thickness of the microcircuit 8 extends from the microcircuit 8 according to the format of the flexible support 1, and does not constitute therefore not a peripheral reinforcing layer as the patch 9 reinforcement described above. Nevertheless, preferably, each thickness compensation layer extending around and from the microcircuit 8 has a smaller size than that of the flexible support, as described above with respect to the patch 9.

Claims (11)

  1 / - Flexible security label comprising at least one microcircuit (8) fixed on a flexible support (1) and at least one thickness compensation layer which, for each microcircuit (8): - has a recess (19) receiving the microcircuit (8), - extends around said microcircuit (8), characterized in that at least one thickness compensation layer, called the peripheral reinforcing layer (9), extends around the microcircuit (8). ) in a format 10 less than that of the flexible support (1). 2 / - Vignette according to claim 1, characterized in that each layer of peripheral reinforcement (9) extends in an area less than or equal to 25% of the area of the flexible support. 3 / - Vignette according to one of claims 1 or 2, characterized in that each layer of peripheral reinforcement (9) extends in an area of less than 10 cm2. 4 / - Vignette according to one of claims 1 to 3, characterized in that each thickness compensation layer is a peripheral reinforcing layer (9) extending around the microcircuit (8) in a format 20 less than or equal to to that of the flexible support (1), and in that the assembly formed by each peripheral reinforcing layer (9) around the microcircuit (8) has a thickness greater than that formed by the microcircuit (8) from the flexible support (1). 5 / - Vignette according to one of claims 1 to 4, characterized in that it comprises, around each peripheral reinforcing layer (9), at least one layer (13, 18) format compensation extending around said peripheral reinforcing layer (9) to a format corresponding at least substantially to that of the flexible support (1), and forming a total thickness greater than or equal to that of said peripheral reinforcing layer ( 9), 18 and in that the assembly formed by each peripheral reinforcing layer (9) has a bending rigidity greater than that of the assembly formed by each layer (13, 18) of format compensation. 6 / - Vignette according to claim 5, characterized in that the assembly formed by each layer (13, 18) format compensation has a bending stiffness less than or equal to that of the flexible support. 7 / - Vignette according to one of claims 5 or 6, characterized in that the assembly formed by each layer of peripheral reinforcement (9) has a compressive stiffness greater than that of the assembly formed by each layer (13, 18) format compensation. 8 / - Vignette according to one of claims 5 to 7, characterized in that it comprises at least one layer of varnish as a layer (13, 18) format compensation. 9 / - Vignette according to one of claims 5 to 8, characterized in that it comprises at least one layer of adhesive as a layer (13, 18) format compensation. 10 / - Vignette according to one of claims 1 to 9, characterized in that it comprises, as a layer (s) (13, 18) of peripheral reinforcement (9), at least one peripheral reinforcing strip varnish printed at least one layer around the microcircuit (8). 11 / -Vignette according to one of claims 1 to 9, characterized in that it comprises, as a layer (s) of peripheral reinforcement (9), a patch (9) of peripheral reinforcement adhering to the flexible support ( 1) around a microcircuit (8) and of a smaller size than that of the flexible support (1). 12 / - - Vignette according to claim 11, characterized in that said wafer (9) is formed of a material selected from the group consisting of polyesters, polymethacrylates, polycarbonates, polystyrenes, polyethylenes, polypropylenes and polyamides. 13 / - Vignette according to one of claims 1 to 12, characterized in that the assembly formed by each layer of peripheral reinforcement 19 (9) has an overall width of between 10 mm and 30 mm -part of l order of 20 to 25 mm. 14 / - Vignette according to one of claims 1 to 13, characterized in that it comprises at least one antenna (2) remote transmission of information and / or signals and / or energy, formed of turns a conductive ink printed on one side of the flexible support (1) receiving a microcircuit (8) fixed by bonding on this face, said transmission antenna (2) being electrically connected to this microcircuit (8), and in that the total thickness formed by the thickness compensation layer (s) from said face of the flexible support is greater than or equal to that of the assembly formed by the transmission antenna (2) and the microcircuit ( 8) stuck on this face. 15 / -Vignette according to one of claims 1 to 14, characterized in that the assembly formed by each peripheral reinforcing layer (9) has a total thickness greater than or equal to that of the microcircuit (8). 16 / - Vignette according to one of claims 1 to 15, characterized in that the assembly formed by each peripheral reinforcing layer (9) has a total thickness of between 100 m and 250 m. 17 / - Vignette according to one of claims 1 to 16, characterized in that it comprises a microcircuit (8) non-contact reading mounted on the flexible support by gluing, the microcircuit (8) having connection terminals coming directly in contact with connection pads of an antenna (2) printed on the flexible support (1). 18 / - Vignette according to one of claims 1 to 17, characterized in that said flexible support (1) is formed of a flexible sheet of size less than A4 in a flexible material selected from the group consisting of papers and films of polyesters. 19 / -Vignette according to one of claims 1 to 18, characterized in that said flexible support (1) has a thickness less than 150 gm -notamment of the order of 100 m-. 20 / - - Vignette according to one of claims 1 to 19, characterized in that it comprises at least one layer (13, 18) of external adhesive so as to be in the form of an adhesive label. 21 / - Official document - particularly passport, driving license, vehicle registration certificate, diploma, administrative certificate and / or identification and / or authentication, contract-, characterized in that it comprises at least one Vignette according to one of claims 1 to 20. 22 / - Document according to claim 21, characterized in that it is in the form of a notebook.