Classifications

• • G—PHYSICS
  • G06—COMPUTING; CALCULATING OR COUNTING
  • G06K—GRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
  • G06K19/00—Record carriers for use with machines and with at least a part designed to carry digital markings
  • G06K19/06—Record carriers for use with machines and with at least a part designed to carry digital markings characterised by the kind of the digital marking, e.g. shape, nature, code
  • G06K19/067—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components
  • G06K19/07—Record carriers with conductive marks, printed circuits or semiconductor circuit elements, e.g. credit or identity cards also with resonating or responding marks without active components with integrated circuit chips
  • G06K19/077—Constructional details, e.g. mounting of circuits in the carrier
  • G06K19/07745—Mounting details of integrated circuit chips
• • H—ELECTRICITY
  • H01—ELECTRIC ELEMENTS
  • H01L—SEMICONDUCTOR DEVICES NOT COVERED BY CLASS H10
  • H01L2924/00—Indexing scheme for arrangements or methods for connecting or disconnecting semiconductor or solid-state bodies as covered by H01L24/00
  • H01L2924/0001—Technical content checked by a classifier
  • H01L2924/0002—Not covered by any one of groups H01L24/00, H01L24/00 and H01L2224/00
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
  • Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
  • Y10T156/00—Adhesive bonding and miscellaneous chemical manufacture
  • Y10T156/10—Methods of surface bonding and/or assembly therefor
• • Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
  • Y10—TECHNICAL SUBJECTS COVERED BY FORMER USPC
  • Y10T—TECHNICAL SUBJECTS COVERED BY FORMER US CLASSIFICATION
  • Y10T156/00—Adhesive bonding and miscellaneous chemical manufacture
  • Y10T156/10—Methods of surface bonding and/or assembly therefor
  • Y10T156/1052—Methods of surface bonding and/or assembly therefor with cutting, punching, tearing or severing
  • Y10T156/1062—Prior to assembly
  • Y10T156/1075—Prior to assembly of plural laminae from single stock and assembling to each other or to additional lamina

Definitions

• the subject of the present invention is a method for manufacturing a carrier that is cut into a plurality of support units each integrating at least one electronic device, as well as such a support.
• the invention applies to any support made of polymeric material comprising at least one integrated electronic device and, more particularly, but not exclusively, to the production of security documents, the latter being for example identity documents or means of identification. payment, booking vouchers (vouchers), checks ⁇ gifts, event tickets, transport tickets but also labels or other documents, including interactive, eg including road maps.
• the support is for example cutable into a plurality of support units, intended to be introduced into a fibrous mixture of a paper machine for example, the fibrous mixture used in particular to manufacture items such as security documents or banknotes of bank.
• Such support units are commonly referred to as "boards”.
• first level security elements which comprise security elements detectable with the naked eye in visible light and without the use of a particular device and / or elements of security.
• second level security that is detectable only with a relatively simple device such as a lamp emitting in the ultraviolet or infrared.
• third level security elements also including electronic devices capable of generating a specific signal when subject to optoelectronic, electrical, magnetic or electromagnetic excitation.
• the presence of such security elements in a support may require compensation of the extra thickness generated in the support by the presence of the electronic device in order to protect the latter and / or to make it less detectable and / or to facilitate printing on the surface of the support.
• the application WO 03/015016 teaches integrating an electronic device into a fibrous layer without generating extra thickness therein by virtue of the use of a strip carrying the electronic device, incorporated in the fibrous layer during its formation.
• Application WO 2008/060708 teaches arranging an electronic device inside a support, this device being introduced inside a cavity previously formed in the support or introduced by compressing the support locally.
• the step of previously providing a cavity in the support for the introduction of the electronic device can be relatively complicated to implement and expensive in time.
• the application WO 2009/043690 teaches to introduce inside a support of polymer material an electronic device, incorporated in the support before extrusion thereof.
• the application US 2008/0291020 teaches to introduce a plurality of paper boards in a mixture of paper fibers during the manufacture of an article such as a card to collect.
• Application FR 2 701 139 describes a thermoplastic material which flows under the effect of pressure and temperature.
• the object of the invention is to meet this need, and in one of its aspects it achieves this by means of a method of manufacturing a support, comprising at least one electronic device, in which method the electronic device is introduced. in a first layer of the support, made from at least one polymer material, using a pick-and-place tool.
• a pick-and-place tool allows the introduction of simple and fast electronic device inside the support.
• Such a tool also makes it possible to work directly with the desired format and to achieve high production rates.
• the electronic device can be received without generating any appreciable extra thickness in the first layer.
• the thickness of the assembly formed by the first layer and the electronic device introduced into the latter, to the right of the electronic device is between 95 and 105% of that of the first layer elsewhere.
• a medium comprising such an electronic device can have a high level of security and satisfy traceability and / or authenticity requirements.
• the method may include the step of assembling under mechanical stress the first layer with at least a second layer of the support, so that the electronic device is located between the outer faces of the two layers thus assembled.
• the electronic device can be chosen from integrated microcircuits with contactless communication, chip microcircuits integrated on a chip, resonant microcircuits, microcircuits with electromagnetic wave communication, micro transponders, photo-activatable micro transponders, in particular with a laser beam. , and the micro transponders reacting to a beam of light, for example diffuse light.
• the electronic device can be programmable or not.
• the electronic device can be read only or read / write.
• Each layer may comprise at least one core sublayer having voids and / or at least one void-free skin sub-layer.
• underlayer of heart it should be understood that this underlayer is further from the surface of the layer than a skin underlayer.
• the presence of voids in the core sublayer confers a density of less than 1 and increases the compressibility of the latter, which facilitates the introduction of the electronic device inside the layer with the aid of the pick-and-place tool and can also promote the printing on the support finally obtained, for example by intaglio printing.
• the intaglio print is made with a greasy ink that does not dry completely. It is in relief and constitutes itself a security element
• the compressibility of a layer or sublayer is defined by the ZWIC standard and corresponds to the difference in thickness between a configuration without constraint and a configuration under stress.
• a support made using layers comprising such core sub-layers is particularly suitable for intaglio printing processes and any other treatment generating a tactile effe.
• the support obtained may have printing reliefs equivalent to those obtained with a paper support and a sharpness of details.
• the skin underlayer may be an adhesive underlayer or a printing underlayer.
• Each layer of the substrate may comprise an underlayer of heart, and two sub-layers of skin, the underlayer core being sandwiched between these two sub-layers of skin.
• One of the two skin sub-layers is for example an adhesive underlayer and the other of the two skin sub-layers is a printing underlayer.
• the two skin sub-layers are of the same type, for example adhesive or printing.
• a carrier according to the invention can have a durability of printing as well as improved mechanical properties with respect to a paper support.
• a support according to the invention has, for example, a very good impression and a good contrast, which makes it possible to clearly print fine structures, difficult to reproduce by counterfeiters.
• the electronic device may comprise an RFID microcircuit. It can be an integrated microcircuit contactless communication, a microcircuit integrated antenna on a chip or a resonant microcircuit.
• a support with microcircuit integrated antenna on a chip can have a small thickness, which can make it easier to compensate for the extra thickness generated by the microcircuit in the support.
• this integrated antenna can be the only antenna support or can be coupled to an amplification antenna, also called booster antenna, integrated support.
• booster antenna also called booster antenna
• the presence of such a booster antenna can increase the range of detection of the chip, for example by a factor equal to 100.
• such a booster antenna can provide a media customization means.
• the electronic device may be devoid of antenna and configured to be connected to an antenna of the support, for example by welding or gluing with a conductive adhesive.
• the antenna can be filial or other, for example screen printed or engraved.
• the electronic device can be introduced into the first layer through a void-free skin underlayer of said first layer and into the thickness of a core underlayer including voids of said layer.
• the skin sub-layer through which the electronic device is introduced is for example an adhesive underlayer.
• the second layer or layers may be made of the same polymer material as the first layer. They may alternatively be of different composition.
• the electronic device is introduced with the pick-and-place tool in the first layer by compressing this layer at a location devoid of a cavity, notably thanks to the compressibility of the sub-layer. heart layer of the first layer.
• the electronic device is for example partly received in at least 20%, better still 40%, better 60%, better 80%, better 100%, of the thickness of the sub- heart layer of the first layer.
• the adhesive layer may be hot melt or comprise a pressure-sensitive adhesive.
• the pick-and-place tool can be configured to heat the support and / or the electronic device, especially in the presence of a layer of hot melt adhesive to be traversed during insertion of the electronic device by the pick-and-place tool.
• the heating can be carried out at a temperature greater than or equal to 80 ° C.
• the face of the first layer through which the electronic device has been introduced can be arranged facing the other layer.
• the first and second assembled layers may be two separate layers or, alternatively, correspond to the same layer which was previously folded over it.
• each layer comprises at least one adhesive sub-layer
• the adhesive skin sub-layers of the first and second layers may, during the assembly step, come into contact with one another.
• the printing sub-layer of each layer can define, after assembly, the outer faces of the support obtained.
• the adhesive sub-layer of one layer comes into contact with the printing sub-layer of the other layer.
• the outer faces of the support obtained can then be defined by a printing sub-layer and an adhesive sub-layer.
• the electronic device is introduced with the pick-and-place tool in a cavity of the first layer.
• This cavity may extend over the entire thickness of the first layer or, alternatively, only be provided in all or part of the thickness of the core underlayer and / or in one of the skin sub-layers.
• the first layer may be disposed between two other layers, also called second layers, said first layer comprising a core sub-layer having voids and two adhesive skin sub-layers, the core underlayer being sandwiched between these two sub-layers of adhesive skin.
• the other two layers assembled with the first layer may each comprise an adhesive skin underlayer and a printing skin underlayer.
• the other two layers may be identical or of different composition.
• the first layer may comprise a core underlayer bordered by two adhesive skin sub-layers.
• the two adhesive sub-layers of the first layer can respectively come into contact with the adhesive sub-layer of each other layer, so that at the end of this assembly step, the outer faces of the support are each defined by a printing sub-layer.
• the method may comprise the step of performing at least one printing on at least one printing sub-layer of the support. This is for example an impression of a security reason, especially with a fluorescent ink.
• the polymer material from which the first layer of the support is made is for example based on polyolefin or polyethylene.
• the material used may be porous and densify upon insertion of the electronic device. Such a material does not flow under the effect of pressure and temperature.
• the method may include the step of depositing at least one security element on an outer face of the support.
• a security element may be a first-level, second-level, or third-level security element. It is for example an identification pattern printed with a fluorescent ink, a watermark obtained by embossing, a holographic foil, or a tracer capable of generating a specific signal when subjected to excitation. or a suitable chemical or "tagging" marker.
• a medium that has several security elements may have a relatively high level of security.
• the support obtained may be devoid of fibrous layer.
• the support may comprise only one electronic device or, alternatively, include several, for example between 2 and 8.
• the support may have a total thickness of between 70 ⁇ and
• the first layer and / or the second layer or layers may each comprise a single core underlayer having voids.
• said layer or layers comprise a plurality of core sublayers having voids.
• the support may be devoid of a second layer (s) and the process may comprise the step of coating the coating at least one side of the first layer of a heat-sealing varnish on the line or off-line. at least one of the face of the adhesive underlayer opposite the core underlayer and the face of the printing underlayer opposite to the core underlayer.
• a first layer of varnish is for example coated on the adhesive underlayer, so that the adhesive underlayer is sandwiched between the first layer of varnish on the one hand and the underlayer of other heart part, this first layer of varnish then defining the front face of the support.
• Such a layer of varnish can improve the protection of the electronic device introduced into the support with respect to corrosion, for example.
• a second layer of varnish is for example coated on the printing sub-layer, so that the latter is sandwiched between the core sub-layer and the second layer of varnish, the second layer of varnish defining the back side of the support.
• the varnish can be deposited so as to define the back side and the front face of the support.
• the first layer of varnish is coated on the adhesive sub-layer through which the electronic device or devices are introduced and printing is performed on the printing sub-layer
• This impression corresponds for example to a flat surface of Ink invisible to the naked eye and visible under UV or IR light.
• This printing can be performed to the right of the electronic device and constitute a marker in a subsequent step of cutting the support.
• the varnish contains for example a fluorescent ink and may have adhesive properties.
• This coating step of varnish is particularly favored by the introduction without generating extra thickness of electronic device (s) in the first layer.
• the support with or without a layer (s) of varnish and with or without second (s) layer (s), can be cut, for example by laser to achieve a plurality of support units.
• Each support unit may contain one or more electronic devices.
• the support can be cut by two successive coaxial cylinders, each of the cylinders carrying a complementary cutting pattern which intersects with the other pattern so as to form a resulting pattern which will form the support unit as described in the patent EPI 718441.
• the surface of a support unit is advantageously greater than that of the electronic device, the latter being for example entirely located inside the surface of the support unit.
• the cutting of the support units is performed at the mark so that the electronic device is arranged in a manner marked with respect to the shape of the support unit.
• the support units can be cut to have a decorative shape, for example a geometric pattern such as an ellipse, a circle, a polygon, a rectangle, a square, a star.
• the support units may define a writing symbol, such as an alphanumeric character, or an image of a recognizable object, such as an animal, a plant, a logo or a character.
• the support unit can be cut according to the outer contour of the pattern or the solid surface deposited.
• Each support unit has for example a larger dimension between 0.5 and 5 mm, having a relatively small size, being still called “boards”.
• Another subject of the invention is a method of manufacturing an article, in particular a security document in which:
• At least one support unit as defined above is introduced into a dispersion of fibrous material intended to form a fibrous substrate of the article in a paper machine, for example a round-shaped paper press machine or table flat.
• the amount of support units introduced into the fibrous material dispersion is, for example, calculated so that the fibrous mixture is homogeneous in terms of the number of support units, allowing the probability of having the same number of units.
• support units per article obtained by cutting such a support is large, for example greater than or equal to 90%
• At least one electronic device of the substrate may be out of use, having for example been damaged during the cutting of the support units.
• the article is for example a paper article, being in particular a document.
• the invention can make it possible to introduce one or more electronic devices inside the document, without making a reference on the document.
• the introduced electronic devices have been previously integrated into the support, the latter comprising at least the first layer in polymeric material protecting the electronic device.
• the invention also relates to an article, in particular a security document such as a passport, an identity card, a driving license, a playing card or interactive collector, a means of payment, including a card a voucher, a voucher, a transport card, a loyalty card, a service card, a subscription card, made by the above method.
• a security document such as a passport, an identity card, a driving license, a playing card or interactive collector, a means of payment, including a card a voucher, a voucher, a transport card, a loyalty card, a service card, a subscription card, made by the above method.
• a means of payment including a card a voucher, a voucher, a transport card, a loyalty card, a service card, a subscription card, made by the above method.
• the invention further relates, independently or in combination with the foregoing, to an article, in particular a document, comprising a medium comprising:
• At least one layer of at least one polymeric material comprising at least one underlayer having voids and,
• an electronic device comprising an integrated antenna microcircuit on a chip, at least a portion of which is received in at least a portion of the thickness of said underlayer.
• the article is for example a document as described above, for example a voucher, a gift voucher, an event ticket, a label, a map or more generally any object manufactured using a medium comprising a layer of polymer material comprising an underlayer with voids.
• the article may have at least one of the features mentioned above, especially in relation to the layers of the support.
• Another subject of the invention is a fibrous substrate for producing an article, in particular a document such as a security document, said substrate comprising a plurality of support units comprising each at least one electronic device received within a non-fibrous layer of said support unit.
• At least one of the electronic devices of the substrate may be out of order.
• the support units may have the same characteristics as those obtained at the end of the manufacturing process of the support described above, being in particular made from a support comprising at least a first layer made from at least one polymeric material.
• the support units each comprise a through-hole or an internal perforation and an electronic device introduced in the manner described above and disposed on the support unit but outside the perforation.
• a through-hole or such a perforation may make it possible to improve the strength of the support units in the fibrous substrate.
• the support incorporating at least one electronic device and being obtained by means of the method defined above, is in the form of a band or ribbon and is introduced in a machine. in a dispersion of fibrous material which is intended to form the fibrous substrate of the security document.
• the support integrates several electronic devices which, because of their introduction in tape, are arranged in a localized area of the security document, which facilitates in particular the reading of the electronic devices.
• the security strip thus formed has a width of between 2 and 60 mm, preferably between 4 and 30 mm and more preferably between 10 and 20 mm.
• the fibrous substrate may further comprise at least one so-called “first level” security element detectable with the naked eye in visible light and without the use of a particular apparatus and / or at least one so-called second level security element. "detectable only with the aid of a device such as a lamp emitting in the ultraviolet or infrared and / or at least one other so-called” third level "security element comprising a tracer capable of generating a specific signal when subjected to external excitation.
• This security element for example implements an ink having different optical properties depending on an illuminant, for example in terms of iridescence or visibility.
• the subject of the invention is also a method for authenticating and / or identifying an article, in particular a security document, comprising a fibrous substrate comprising at least one support unit each receiving in a non-fibrous layer at least one electronic device, each support unit being in particular obtained using the above method, a code being assigned to each electrical device of each support unit, at least one identifier of the article being associated with the article, for example inscribed on the article,
• code must be understood in the broad sense, for example denoting both numbers, literates recorded in a memory of a chip that, in the case of a resonant microcircuit, a resonant signal.
• the identifier of the article and the code are for example compared by applying a mathematical function, for example an encryption or decryption function, to at least one of the resulting code and the identifier.
• the same code, or possibly separate codes, can be assigned to several electronic devices of the article and these codes can be read.
• the resulting code can be determined, for example by concatenation, from the read codes.
• the identifier of the article is for example a number equal to the resulting code. As a variant, this identifier is distinct from the resulting code, ensuring the uniqueness of the authentication.
• An electronic device comprises, for example, information specific to it and information relating to at least one other electronic device of the substrate.
• the article is for example made from the fibrous substrate above.
• FIG. 1 schematically represents a method according to a first embodiment of the invention
• FIGS. 2 to 5 represent steps of the method according to FIG. 1,
• FIG. 6 represents an article obtained at the end of the process according to FIG. 1;
• FIGS. 7 to 9 represent steps of the method according to a second example of implementation of the invention,
• FIG. 10 represents an article obtained at the end of the process according to FIGS. 7 to 9,
• FIG. 11 schematically represents examples of steps during a manufacturing method according to a third exemplary implementation of the invention.
• FIGS. 12 to 15 show examples of support during the steps of the method represented in FIG. 11.
• FIG. 1 schematically illustrates a method of manufacturing a support 1, which can be cut into support units, according to a first example of implementation of the invention.
• a first layer 2 made of a polymer material.
• the first layer 2 comprises a core sub-layer 3 comprising voids.
• the core sub-layer 3 has a thickness of between 50 ⁇ and 300 ⁇ .
• the first layer 2 may comprise at least one underlayer of skin.
• the first layer 2 comprises two skin sub-layers, the core sub-layer 3 being sandwiched between the two skin sub-layers.
• the layer 2 is for example made of Polyart® type ⁇ C or BM, marketed by the company ARJOBLX.
• One of the skin sub-layers of the first layer 2 is, for example, a printing sub-layer 4.
• This printing sub-layer 4 has for example a thickness of between 5 ⁇ and 40 ⁇ and can be configured to allow intaglio printing.
• the second skin sub-layer of the first layer 2 is for example an adhesive underlayer 5, in particular a hot-melt adhesive underlayer, for example polyethylene.
• This underlayer 5 may have a thickness of between 5 ⁇ m and 50 ⁇ m,
• the sub-layers 4 and 5 may have substantially equal thicknesses.
• the skin sub-layers 4 and 5 are preferably void-free on their surface.
• the void ratio of the first layer 2 may be between 5 and 50%.
• the determination of the void ratio of the first layer 2 can in particular be done after cutting this layer 2 by ion beams, for example argon ions, which makes it possible to limit the appearance of scratches, fills, tears. or compressions on the layer 2, to preserve the morphology of this one, thus favoring the determination of the porosity.
• the observation can be made by electron microscopy, in particular by means of a scanning electron microscope, in particular of the ESEM Quanta 200 type of EFPG. it is then possible to distinguish between different sub-layers ⁇ Layer 2 and porosities.
• the void ratio can be calculated as the ratio between the total void area on the cut and the total area of the cut using the following formula:
• the electronic device 6 comprises, for example, a microcircuit of the RFID chip type.
• This chip may include an integrated antenna, being for example a chip called AOB (anienna on board) or OCA (on chip antennd).
• AOB anienna on board
• OCA on chip antennd
• An example of such an OCA chip is for example described on the website http: // www. fecinc.com, my / mmchi p / mm _on chip antenna.htrn.
• Particularly suitable AOB chips may have a thickness of between 60 and 80 ⁇ , for example 70 ⁇ , and a width of between 30 and 50 ⁇ , for example 40 ⁇ .
• the electronic device 6 comprises a resonant microcircuit, a microcircuit with electromagnetic wave communication, a micro transponder responsive to a diffuse light beam or a photo transponder micro-activated by a laser beam.
• the first layer 2 may be devoid of any other antenna than that of the microcircuit 6, in particular that integrated in the chip of said microcircuit.
• the first layer 2 comprises at least one booster amplifying antenna.
• This booster antenna is for example produced by printing, engraving, screen printing or is wired.
• This booster antenna may be electromagnetically coupled to the antenna integrated in the chip of the electronic device and may have a decorative shape, for example a geometric pattern such as an ellipse, a circle, a polygon, a rectangle, a square, a star.
• the booster antenna can define a writing symbol, including an alphanumeric character, or an image of a recognizable object, such as an animal, a plant, a logo or a character.
• the booster antenna can form a loop or not.
• the introduction of the electronic device 6 in the first layer 2 is carried out in the example described using a pick-and-place tool in step 100, which can be configured to heat the electronic device 6 and / or heating the first layer 2 prior to the insertion of the device 6.
• the latter is for example introduced by the gripper / setter tool through the adhesive sub-layer 5 and the heating exerted by this tool taker / poser softens the sub adhesive layer 5.
• the electronic device 6 can be, as represented in FIG. 3, received inside the first layer 2, without generating any appreciable extra thickness, that is to say that the thickness of the first layer 2 at the right electronic device 6 is between 95% and 105%, especially between 100% and 105% of that of the first layer 2 elsewhere.
• the variation in thickness generated by the introduction of the electronic device is compensated by the core underlayer 3 and by the adhesive sub-layer 5.
• the electronic device 6 can be, as in the example under consideration, of thickness between 50% and 90% of the thickness of the core sub-layer 3.
• FIG. 3 represents the first layer 2 at the end of step 100 " with an electronic device 6 in the first layer 2 and a second layer 10 before assembly of the two layers 2 and 10 during a step 101,
• the second layer 10 is for example similar to the first layer 2, having a core sublayer 3 and skin sub-layers 4 and 5 identical to those of the first layer 2.
• the sub-layers of the second layer 10 may have thicknesses and / or be of different materials from those of the first layer 2.
• the two layers 2 and 10 are distinct but, in a variant not shown, the first 2 and the second 10 layers correspond to the same layer which has been folded on itself.
• This assembly step is carried out under mechanical stress, for example by a platen or roller press heating the skin sub-layers, in order to seal the layers 2 and 10 and to integrate the electronic device 6 with the Inside the second layer 10.
• This assembly step corresponds for example to a lamination on a platen press at a temperature of 100 ° C, 10 kg / cm and for five minutes.
• first layer 2 and the second layer 10 may be arranged relative to each other so that, during assembly, the adhesive sub-layers 5 belonging to each layer 2 or 10 come into contact with each other, as in the configuration shown in Figure 3.
• the printing sub-layer 4 of each layer 2 or 10 then defines a front face and a back side of the support 1 obtained.
• the printing sub-layer 4 of one of the layers comes into contact with the adhesive sub-layer 5 of the other layer, so that that at the end of this step, the support 1 comprises a front face, respectively back side, defined by a printing sub-layer and a front face, respectively front, respectively defined by an adhesive sub-layer.
• FIG. 4 represents an example of support 1 at the end of this step 101.
• the electronic device 6 is located between the external faces of the two assembled layers, without generating extra thickness in the support 1.
• the electronic device 6 is thus protected.
• the method may further comprise an optional step 102 in which at least one printing is performed on the printing sub-layer (s) 4 defining one or more faces of the support 1, so as to customize the support. During this step 102, it is also possible or alternatively to add one or more security elements to the support 1.
• FIG. 5 shows an example of support 1 at the end of step 102.
• a holographic foil 8 is for example carried by the back side of the support 1 and a barcode 9 is printed on the front side of the support 1, for example by printing intaglio.
• the support 1 is cut into support units, each support unit being able to be integrated into an article, for example being introduced into a machine for manufacturing a fibrous substrate of the article.
• Figure 6 shows an example of such an article.
• the article shown is a document, for example a restaurant ticket, which has a thickness for example between 200 and 300 ⁇ , being in particular 220 ⁇ .
• the front face of this document may comprise, in addition to the electronic device 6 as illustrated, a bar code 9, images 11 representing a logo and a flag, alphanumeric characters 12, drawings 13 and a partially demetallized security thread 14
• a first layer 2 comprising a core sublayer 3 made of a polymer material, similar to what has just been described.
• this underlayer of heart is bordered by two adhesive sub-layers 5, which may be such that described with reference to the first embodiment, being for example hot melt.
• the first layer 2 is in the example described made in Polyart® type BM.
• the first layer 2 has a cavity 16.
• this cavity 16 is through, that is to say, it extends through the core sub-layer 3 and through each underlayer 4 but, alternatively, this cavity may be non-through, extending for example to. through one of the underlays 4 and all or part of the thickness of the underlayer 3.
• step 100 the electronic device 6, which is for example identical to that described with reference to FIGS. 1 to 6, is introduced inside the cavity 16 by means of a pick-and-place tool.
• a first layer 2 is connected with two second layers 10, each second layer being made of a polymeric material.
• FIG. 8 shows the first layer 2 and the second layers 10 before step 101.
• the second layers 10 may be made of Polyart® type BM1C.
• These second layers 10 each comprise, for example, a core sublayer 3, a printing sub-layer 4 and an adhesive sub-layer 5.
• the polymeric material of the second layers 10 may be the same as that of the first layer 2 or may be a different material.
• the layer 2 is disposed between the second layers 10, and the sub-layers coming into contact during assembly may be adhesive sub-layers 5.
• the support 1 as represented in FIG. 9 may comprise a front face and a reverse side defined by printing sub-layers 4.
• the support 1 may undergo print processing and / or addition of additional security elements.
• FIG. 10 shows an example of an article obtained with the method which has just been described.
• This article is a document, for example an event ticket, including a ticket for a sports event, and has a thickness of between 300 and 400 ⁇ , being for example 325 ⁇ .
• the article may comprise, as shown, two electronic devices 6, images 11 representing, for example, logos, alphanumeric characters 12, a holographic foil 8 and a drawing 13.
• FIG. 12 shows an example of a first layer 2 'before step 100'.
• the first layer 2 ' is for example made of Polyart® STES, as described in the application WO 2009/083690 and sold by the company ARJOBEX or in Teslin®.
• the core sub-layer 3 ' can be sandwiched between the adhesive sub-layer 5' and the printing sub-layer 4 '.
• the printing sub-layer 4 ' is for example loaded with one or more pigments, for example visible in UV light and / or visible under white light.
• step 100 ' at least one electronic device 6', which is for example as described above, is introduced into the first layer 2 '.
• the electronic device penetrates both the adhesive sub-layer 5 'and the thickness of the core sub-layer 3', similarly to the previous examples.
• this device 6' can be introduced inside the first layer 2 'so that the face of the chip carrying the antenna rests against the sub 3 'heart layer. The antenna is thus protected. As shown in FIG.
• the electronic device 6' can rest in the first layer 2 'without generating extra thickness with respect to the thickness of the latter since the variation in thickness generated by the introduction of the electronic device is compensated by the core sub-layer 3 'and the adhesive sub-layer 5'.
• the method may further comprise, as illustrated, a step 104 'in which a heat-sealing varnish, for example acrylic or polyurethane; is coated on at least one of the adhesive sub-layer 5 'and the printing sub-layer 4'.
• a heat-sealing varnish for example acrylic or polyurethane
• This heat-sealing varnish can be deposited by coating in line using a so-called “air knife” or “champion coating” method.
• the varnish is deposited by coating off-line, for example according to the so-called “blade” methods. Air ",” Champion Sleeping "or” Offset ". In the example of Figure 14a.
• the support comprises a first layer of varnish 17 'lying on the face of the adhesive sub-layer 5' defining an outer face of the first layer shown in Figures 12 and 13 and a second layer of varnish 18 'lying on the face of the printing sub-layer 4 'defining another outer face of said first layer 2'.
• the first, respectively second, layer of varnish can then define the front face 20 ', respectively back 2, of the support ⁇ .
• implementations according to the embodiments illustrated in FIGS. 4 and 8 may be provided.
• the support is free of second lacquer layer 18', only the adhesive sub-layer 5 'is coated with the heat-sealing lacquer layer 17'.
• a pattern or a solid surface 25' may be printed on the latter, for example with a security ink. This printing is for example carried out using ink visible or invisible depending on the light and the right of the electronic device 6 '.
• a flag is printed with colored inks to the right of the electronic device 6 '.
• the electronic device 6 ' can be located inside the outer contour of the pattern or the flat 25'.
• a step 105 ' the carrier is cut into a plurality of units 30' of relatively small size such as boards, each unit 30 'having, for example, a larger dimension of between 0.5 and 5 mm.
• Each unit 30 ' may comprise at least one electronic device 6'. This cutting is effected for example by laser or by means of two successive cylindrical cylinders as mentioned above.
• this step 105 ' can be registered on the deposited print. In this way the electronic device 6 'and the pattern 25' are guaranteed to be located on the board after the cutting step described below.
• the pattern 25 ' can be printed offset from the electronic device.
• the pattern 25 ' may constitute a complementary pattern arranged to indicate the presence of the electronic device and thus facilitate its reading.
• the pattern 25 ' may for example be in an annular form indicating at its center the presence of the electronic device.
• the surface of a unit 30 ' is greater than the surface of the electronic device 6' and the entire device 6 'electronics is located inside the unit 30'.
• the cutout may have a decorative shape, for example a geometric pattern such as an ellipse, a circle, a polygon, a rectangle, a square, a star. In this case it follows from the recorded cutout that the electronic device is at the reference relative to the shape of the support unit which provides additional security.
• the cutout can define a write symbol or an image of a recognizable object.
• a support unit 30 ' has only one electronic device 6' but could include more.
• a step 107 ' can be deposited, including printing, a booster antenna on the article to which one or more support units are integrated.
• the security document comprises for example several electronic devices 6 '.
• Each chip may have a unique number, for example consisting of two letters followed by two numbers, and a corresponding number is written on the document. Reading the document can be uniquely authenticated by comparing the identification number entered on the document to a code resulting for example from the concatenation of the codes of the chips present in said document.
• the number written on the document consists of the sum of the chip codes.
• each device 6 ' refers to a detector a single resonant signal and the final document has a global resonant circuit resulting from the sum of all the resonant circuits.
• An article thus obtained comprises at least one electronic device and may also comprise at least one so-called “first level” security element and / or at least one so-called “second level” security element as mentioned above.
• the article may include as security features, inter alia:
• UV absofber in particular in the form coated or mixed with at least one constituent layer of the article,
• a specific light-collecting material for example of the "waveguide” type, for example a luminescent light-collecting material such as the polycarbonate-based polymer films marketed by Bayer under the name LISA®,
• a transparent lenticular grid for example a magnifying glass
• a security thread incorporated for example in the mass of at least one constituent layer of the article or in a window, optionally comprising a positive or negative printed impression, a fluorescence, a metallic, goniochromatic or holographic effect, with or not one or more demetallized parts,
• a flat and relatively small security element such as a board, visible or non-visible, in particular a luminescent board, with or without an electronic device,
• - security fibers in particular metallic, magnetic (with soft magnetism and / or hard), or absorbing, or excitable with ultraviolet, the visible or the infrared, and in particular the near infrared (NIR),
• an automatically readable security having specific and measurable luminescence characteristics (for example fluorescence, phosphorescence), light absorption (for example ultraviolet, visible or infrared), Raman activity, magnetism, micro-interaction waves, X-ray interaction or electrical conductivity.
• luminescence characteristics for example fluorescence, phosphorescence
• light absorption for example ultraviolet, visible or infrared
• Raman activity for example magnetism
• magnetism for example magnetism
• micro-interaction waves for example X-ray interaction or electrical conductivity.
• One or more security elements as defined above can be. present in the article and / or in one or more layers constituting the article or in one or more security elements incorporated in the article and / or in one or more layers constituting the article, such as for example a thread , a fiber or a board.
• At least one of the constituent layers of the article may also comprise a first level security element such as a watermark or a pseudo-watermark superimposed at least partially on a translucent region of the article.
• a first level security element such as a watermark or a pseudo-watermark superimposed at least partially on a translucent region of the article.
• watermark or pseudo-watermark a drawn image that appears in the thickness of the article.
• the watermark or pseudo-watermark can be made in various ways known to those skilled in the art.
• the article may comprise at least one fibrous or polymeric layer, a substructure, an adhesive layer, an outer layer or a spacer layer as defined hereinafter .

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• Engineering & Computer Science (AREA)
• Computer Hardware Design (AREA)
• Microelectronics & Electronic Packaging (AREA)
• Physics & Mathematics (AREA)
• General Physics & Mathematics (AREA)
• Theoretical Computer Science (AREA)
• Credit Cards Or The Like (AREA)
• Laminated Bodies (AREA)

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• 2009
  • 2009-10-27 FR FR0905177A patent/FR2951867A1/fr not_active Withdrawn
• 2010
  • 2010-10-26 CN CN2010800490513A patent/CN102667823A/zh active Pending
  • 2010-10-26 US US13/504,621 patent/US20120242072A1/en not_active Abandoned
  • 2010-10-26 EP EP10776177A patent/EP2494500A1/fr not_active Withdrawn
  • 2010-10-26 WO PCT/IB2010/054838 patent/WO2011051881A1/fr active Application Filing

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