Abstract: In order to create novel security features in secure and/or valuable documents, a polymer layer composite, which has at least two polymer layers that are bonded to each other in a material fit is provided. At least one surface is printed with an absorbing printed layer within a visible region in and/or on the composite located on a polymer layer of the composite. The absorbing printed layer forms at least one printed region, and all printed regions of the printed surface of the polymer layer have a total surface area of at least 50% and not more than 95%.

Abstract: The present invention relates to a process for producing an opaque, transparent or translucent transaction card having multiple features, such as a holographic foil, integrated circuit chip, silver magnetic stripe with text on the magnetic stripe, opacity gradient, an invisible optically recognizable compound, a translucent signature field such that the signature on back of the card is visible from the front of the card and an active thru date on the front of the card. The invisible optically recognizable compound is preferably an infrared ink comprising an infrared phthalocyanine dye, an infrared phosphor, and a quantum dot energy transfer compound. The infrared ink can be detected by a sensor found in an ATM or card assembly line.

Abstract: The invention relates to an insert for a multilayer chip card, including an intermediate sheet and, on either side of the intermediate sheet, at least one outer sheet having a face in close contact with the corresponding face of the intermediate sheet, the intermediate sheet including at least one recess prior to the lamination of the insert. The insert having at least one of the outer sheets is made from a fluent material, such that, when the intermediate sheet is being laminated with the outer sheets, part of the material of the outer sheets moves into the recess in the intermediate sheet, thereby forming a visual and/or tactile defect on the surface of the insert, indicating whether of not the insert and/or the chip card is authentic.

Abstract: The invention relates to a data carrier into which, by means of a laser beam, identifiers are introduced that are visible in the form of irreversible changes, caused by the laser beam, in the optical properties of the data carrier. According to the present invention, the data carrier comprises a laser-sensitive layer (20) that is opaque in the visible spectral range, and that is combined with a securing layer (22) that is metallized at least in a sub-area, the identifiers (30, 32) being introduced by the laser beam simultaneously and in perfect register into the laser-sensitive layer (20) and the metallized sub-area (24) of the securing layer (22).

Abstract: A method for identifying counterfeit cards and supports that can be used in such method. Such supports may be made of materials such as paper, cardboard, plastics and others. The creation of interference wave patterns generated starting from the interaction between an electromagnetic emitting source and particles installed in the cards or support, for example: by a printing processes. The so produced particle interactions (involving photons and electrons) provides complex interference maps in which constituent variables define wave junction conditions characteristic of the interaction between each INFORMATION BLOCK of particles The BLOCKS are created/built in accordance to those variables' statements, and located at different points in the support. To be approved as a valid Data point, the wave function present at each of these Points should match those stored in an extremely complex Data Matrix.

Abstract: A transaction card assembly may be constructed and arranged for use in a transaction by an issuee of the transaction card assembly. The transaction card assembly may include a first layer including a sheet of material, a second layer including a sheet of material, and an adhesive foam material between the first and second layers that expands to fill a space between the first and second layers and to define, at least in part, a finished thickness for the transaction card assembly and bonds the first and second layers together. Indicia, such as information representing an account number, biometric data representing a feature of the issuee, etc., may be included with the assembly for use in a transaction.

Abstract: A method of making a transaction card comprising cutting a first sheet of metal to create a card body, cutting a second sheet of metal to create a back panel, applying an adhesive to said back panel and bonding said back panel to said card body.

Abstract: A metal-encased passive radio-frequency transponder assembly includes a metal housing having an external surface and an opening accessing an interior space, the opening closeable with a metal cover to provide a solid metal encasement. The interior space of the encasement is defined by the interior walls of the housing and cover. The solid metal encasement has a substantially uniform wall thickness between the interior wall surface adjacent which an antenna assembly is disposed and the opposing external surface of less than about 0.5 mm. A passive radio-frequency transponder device is received within the interior space of the housing. The passive transponder device has an iron core antenna assembly. The antenna assembly is disposed adjacent the interior wall surface of the interior space and oriented to maximally couple a radio-frequency signal present at the interior wall surface to an antenna of the antenna assembly.

Abstract: The present invention provides identification documents with security features. For example, a document may include two or more inks that are designed to cohesively fail upon a de-lamination attack. A resulting failure pattern is preferably difficult to predict. The two or more inks are applied to an identification document including a core and laminate layer. At least one of the inks is characterized such that an adhesive strength of the ink to the core and an adhesive strength of the ink to the laminate layer is each greater than the cohesive strength of the ink itself. Thus, the ink rips apart in a somewhat random-like manner upon a de-lamination attack. The ink can be arranged in interwoven or interlocking patterns or in other desired patterns and locations.

Abstract: A wireless communication device, such as an RFID tag, is provided material that is dielectric, unless a voltage is applied that exceeds the materials characteristic voltage level. In the presence of such voltage, the material becomes conductive. The integration of such material into the device may be mechanical and/or electrical.

Abstract: A wireless communication device, such as an RFID tag, is provided material that is dielectric, unless a voltage is applied that exceeds the materials characteristic voltage level. In the presence of such voltage, the material becomes conductive. The integration of such material into the device may be mechanical and/or electrical.

Abstract: Identification documents employing laser-etched or -engraved features are detailed, together with methods for their manufacture. Tactile effects produced by the laser-processed features may be felt by touch, helping confirm the authenticity of such documents.

Abstract: The invention comprises an RFID card consisting of at least one upper layer, one lower layer, one functional layer comprising at least one electronic component, an antenna connected to the electronic component, wherein the card also comprises a compensator between the functional layer and the lower layer, the compensator being recessed at the location of the electronic component and of thickness substantially equal to the thickness of the electronic component on the functional layer and in that the layers are assembled together by adhesion. The invention also comprises the continuous manufacturing method of the RFID card and the machine according to the manufacturing method of the RFID card.

Abstract: A method for personalizing a presentation instrument for an account holder while the account holder is present is described. The method includes transmitting to a server computer a request to personalize a presentation instrument for an account holder who has a financial account with a financial institution. The request includes the account holder's name and background information indicating a background to be placed onto the presentation instrument. The method further includes receiving, at the server computer from the financial institution, presentation instrument data to be included on the presentation instrument. The presentation instrument data comprises an account number and an expiration date.

Abstract: The prevention of counterfeiting labels for various products is addressed by introducing counterfeit proof labels having optically concealed security safety features and clues for consumer's self identification and verification. The images of groups of questions and answers are printed in a precise serial formation, parallel to the optical center of the micro lenticule at the focal plane of a high resolution micro optic array of the label at the location in relation to the optical centers of the micro lenticule and viewing angle, so that each of the questions and answers can be read at a specific viewing angle. For identification, gently tilling the label back and forth, at different angles, each group of the question and answers will be displayed on the label. If the answers correctly match with the questions, the label is proved to be authentic; if one or more of the answers is wrong or not clear the label is a counterfeit. The label can be read under visible light source without any viewing aid.

Abstract: A portable consumer device having a substrate layer, a protective layer and a brittle material layer having an intentionally created unique fissure patterns and systems and methods for making and using same are disclosed. The unique fissure pattern of the brittle material layer is detected and used to authenticate the portable consumer device.

Abstract: A radio frequency identification tag is provided. The radio frequency identification tag includes a base, an antenna formed on the base, an integrated circuit chip electrically connected to the antenna, and a bonding layer bonding the integrated circuit chip to the base. The bonding layer includes a conductive filler. The base is configured to bend away from a surface on which the integrated circuit chip is bonded.

Abstract: A wireless communication improving sheet capable of improving a possible communication distance of an IC tag for wireless communication, a wireless communication IC tag, and a wireless communication system are provided. A first spacer has an arrangement surface for arranging a wireless IC tag. An auxiliary antenna, which resonates with respect to an electromagnetic wave used for wireless communication, is provided on a surface opposite to the arrangement surface of the first spacer. A second spacer is provided on an opposite side to the first spacer with the auxiliary antenna interposed therebetween. The first spacer and the auxiliary antenna is formed with a groove (a hole) having the second spacer as the bottom.

Abstract: An RFID transponder comprises an electronic assembly and an antenna assembly. The electronic assembly a multi-layer film body having one or more electrically conducting functional layers and one or more electrically semiconducting functional layers. The antenna assembly has one or more electrically conducting functional layers, of which one is an antenna coil. In a first region and a second region of the body a respective one of the one or more electrically conducting functional layers forms respective first and second capacitor plates. In addition, in the first region and the second region of the body a respective one of the one or more electrically conducting functional layers of the antenna assembly is formed as a third and a fourth capacitor plate so that the electronic assembly and the antenna assembly are electrically coupled by capacitors formed respectively by the first and third and by the second and fourth capacitor plates.

Abstract: An object of the present invention is to provide an electronic card equipped with a display by a batch processing, adopting a dam around the edge of the card and a curable resin, and the method for fabricating thereof. Another object of the present invention is to provide an electronic card including a static electricity blocking film and the method for fabricating thereof. An electronic card according to the present invention comprises a dam formed around the edge of a first printing film with a certain width and height; a flexible PCB and an IC chip formed on said first printing film; a display to show information inputted or outputted through said IC chip; and a curable resin to be infused onto said first printing film.

Abstract: Apparatus capable of enhancing an incident electric field to drive an electromagnetic tag (124) into operation, comprising a resonant dielectric cavity which extends out of a single plane defined between two conducting surfaces (102, 104, 106). The cavity may extend over two or more layers, and can adopt C or S shaped or spiral profiles.

Abstract: A financial transaction card has a first major surface on one side and a second major surface on an opposite side. A first set of raised indicia projects outwardly from the first major surface. A second set of raised indicia projects outwardly from the second major surface and is directly contralateral with the first set of raised indicia. The second major surface is devoid of any indication of the first set of raised indicia and the first major surface is devoid of any indication of the second set of raised indicia. Each indicium denotes an alphabetic letter or a number and in one embodiment is a Braille character.

Abstract: The present invention refers to a method and to an apparatus for obtaining a random code useable in a device for unique identification of a product wherein the apparatus comprises a sliding path of a continuous strip arranged along which is at least one drilling station for obtaining a plurality of holes on the strip, the plurality of holes forming the random code and it is wherein the drilling station is of the random type generating a plurality of holes according to a random and deterministically irreproducible process.

Abstract: An IC card includes a card main body, a first antenna which is provided on an upper surface of the card main body along an outer peripheral side surface of the card main body, a semiconductor chip which is arranged on an inner side of the first antenna, and a second antenna which is provided on the inner side of the first antenna. The semiconductor chip has transmission and reception circuits and external connection electrodes connected with the transmission and reception circuits. The second antenna is connected with the external connection electrodes of the semiconductor chip.

Abstract: A radio frequency (RF) IC card device with very high frequency comprises an IC device (102), a radio frequency interface device (103), an RF antenna (104), an IC card interface (106) and an RF interface (107). Particularly, said RF interface device (103) and the RF interface (107) operate in a frequency band of UHF (ultra high frequency) or SHF (super high frequency); said RF antenna (104) is directly integrated on an IC card (100); the RF IC card device with very high frequency exchanges data with other RF devices via the RF interface (107).

Abstract: One aspect of the invention comprises a method of embedding data in a code readable by machine from a visible light scan of the code. The method comprises pre-printing a two dimensional array of pixels on a substrate. The pixels include at least one calibration pixel, and each have color values. The method selectively alters at least a subset of the pixels by using laser radiation to alter color saturation of the color values of the pixels in the subset relative to the calibration pixel according to digital data values of the code to be embedded in the subset of pixels. This method has been adapted to embed personalized information in pre-printed graphic elements on ID cards.

Abstract: The present invention provides an RFID tag substrate in which communication characteristics of an RFID tag do not vary by an influence of contents in a container, the communication characteristics of the RFID tag are not deteriorated even if a metal container is used, the communication characteristics of the RFID tag can be excellently maintained irrespective of a material or contents of a container, and the tag can be reduced in thickness/size, and which can use a general-purpose RFID tag as it is and is suitable for a microwave type RFID tag that uses a UHF band or a frequency band of, e.g., 2.45 GHz in particular.

Abstract: A RFID tag, which decreases a bending stress and simultaneously prevents an antenna break, is provided. The RFID tag includes a base, an antenna for communication which extends on the base, a circuit chip which performs radio communication through the antenna. The RFID tag further includes a chip reinforcement member which covers a periphery of the circuit chip and a portion of the antenna and a covering member which cover the base, the antenna, the circuit chip and the chip reinforcement member. The covering member is more flexible than the chip reinforcement member.

Abstract: A reward or retailer's card and a method of making a card having an overall recycle code of no greater than about 5. The card includes a core card stock made of a material having a recycle code of less than about 5. Variable indicia is printed on the card stock. A hot stamped substantially transparent foil layer is applied to at least the variable printed indicia on the card stock to protect the printed indicia.

Abstract: A structure of a subject such as a card, a bank note, or a stock certificate easily faked and needing authenticity validation and a method for judging the authenticity of the subject. An authenticity validation chip having structural color developers irregularly arranged is attached to a card. An optical sensor detects the arrangement of the structural color developers to individually recognize the card or judge its authenticity. To validate the authenticity, when or after the card is taken in, the information in the authenticity validation chip provided on the card is read. Each of the structural color developers is a transparent resin flake or a transparent resin thin layer. The information is read two-dimensionally with a camera, and the authenticity of the authenticity validation chip is judged by observing the distributed state of the structural color developers. Alternatively, the information can be read linearly.

Abstract: The present invention relates to a method of fabricating an insert comprising at least a first flexible support, a second flexible support assembled with the first, and an RFID device that is situated at least in part between the two supports, the method comprising the steps consisting in depositing at least one adhesive on a face of at least one of the supports, the other support carrying at least one active substance, and assembling the two supports together, the active substance being capable of causing or accelerating a reaction process with the adhesive.

Abstract: A storage apparatus 10 is disclosed, that comprises a wiring substrate 11 having a first surface and a second surface, a flat type external connection terminal 12a disposed on the first surface of the wiring substrate 11, a semiconductor device 14 disposed on the second surface of the wiring substrate 11 and having a connection terminal 14a connected to the flat type external connection terminal 12a, a molding resin 15 for coating the semiconductor device 14 on the second surface of the wiring substrate 11, a card type supporting frame 10a having a concave portion or a hole portion fitting the wiring substrate 11, the semiconductor device 14, and the molding resin 15 in such a manner that the flat type external connection terminal 12a is exposed to the first surface of the wiring substrate 11, and adhesive resin a adhering integrally the flat type external connection terminal 12a, the wiring substrate 11, the semiconductor device 14, the molding resin 15, and the card type supporting frame 10a.

Abstract: The invention relates to a chip module for an RFID system comprising a web-type or sheet-type support material (4) on the upper face of which a coupling antenna (2) and an RFID chip (3), which is electrically, especially galvanically, connected to the coupling antenna (2), are arranged and the lower face of which is provided with an adhesive layer (9). The coupling antenna (2) consists of an aluminum layer (7) having a thickness of 1 ?m-20 ?m, especially of 3 ?m-12 ?m.

Abstract: An RFID tag characterized in including: a dielectric substrate having a hole formed in one main surface thereof; a ground conductive pattern disposed on another main surface of this dielectric substrate; a conductive pattern disposed on the one main surface of the above-mentioned dielectric substrate in such a way as to be placed in an inner portion of the dielectric substrate at a predetermined distance from each of edges of the above-mentioned dielectric substrate, a slot being formed in this conductive pattern; and an IC chip electrically connected to the above-mentioned conductive pattern via this slot, and inserted into the above-mentioned hole of the above-mentioned dielectric substrate.

Abstract: An RFID device. The device comprises a conductive layer formed on a first substrate. An opening line (or two or more opening lines) is formed in the conductive layer to make the conductive layer a part of an antenna structure. An integrated circuit chip is placed over at least a portion the opening line and coupled to the conductive layer. The integrated circuit chip is electrically interconnected to the conductive layer.

Abstract: A secure card is described that includes a front surface, a back surface, a memory operably placed between the surfaces, the memory having an interface to an external device, a removable image transfer film having a releasable coating disbursed thereon, at least one digitally created image originally applied to the releasable coating in reverse image format, and an adhesive layer. The adhesive layer is operable such that the at least one digitally created image is between the releasable coating and the adhesive layer. The adhesive layer is applied adjacent one or more target surfaces associated with at least one of the surfaces, a selective release transfer process utilized such that the portions of the adhesive layer adjacent the at least one digitally created image remain on the surfaces when the image transfer film is removed from the card.

Abstract: Rigid polymeric transaction cards are provided having a plurality of layers forming a first surface and a second surface wherein at least one of said first and second surfaces comprises a textured pattern. In addition, a method of making a transaction card is provided wherein a textured pattern is disposed into a lamination plate, and further wherein a plurality of layers are laminated together to form a rigid card having the textured pattern disposed in at least one of the first and second surfaces of the transaction card.

Abstract: This invention is related to a discernment card which is resistant to bending and high heat, and capable of preventing unauthorized copying of recorded identity information leakage of personal information and deletion of identity information, and to a discernment card business system for preventing unauthorized use of identity information. The discernment card (1) comprises a card main body (10) integrally formed by a high strength alloy and at least one identity information recording portion (20) comprising specific identity information inscribed on the card main body, wherein plural cells (30) are inscribed at predetermined positions of identity information recording portion of the card main body and specific identity information of the identity information recording portion is specified by one or more of inscribed depth, inscribed width and inscribed shape of the cells.

Abstract: A composition is provided for adhering a first article to a second article, the composition comprising a thermally active low Tg polymeric resin; and a multifunctional crystalline polymer. The thermally active low Tg polymeric resin can, for example, comprise 50-99% of the composition. The multifunctional crystalline polymer can, for example, comprise 1-50% of the composition. In one embodiment, the multifunctional crystalline polymer comprises 5-20% by weight of the composition. In one embodiment, the multifunctional crystalline polymer has a low molecular weight.

Abstract: A method for producing a RFID label comprises conveying a first label base material which is transparent from a first holding portion holding the first label base material, forming an image on a surface of the first label base material, conveying a second label base material including at least one of a RFID antenna conductor and an IC chip from a second holding portion holding the second label base material and joining the second label base material and the first label base material on which an image has been formed together, wherein, when an image is formed on the first label base material, the image is formed on a surface of the first label base material, the surface being joined to the second label base material.

Abstract: An apparatus is provided for making contactless card transactions, specifically of the secure element payment application variety, adapted for use in, but not limited to a customized and personalized skin that is applied to various mobile devices. The contactless payment skin provides a customized fit to the physical design of the mobile device to which it is applied. Customized graphics or images may be imprinted on the payment skin. The contactless payment skin is affixed to that mobile device. The contactless payment skin contains a contactless card region that houses an antenna and a secure element (SE) chip that may be used for contactless payment transactions at a merchant point of sale reader.

Abstract: A laminated material on which information is recorded is provided. The laminated material includes a microsphere fixing layer in which many transparent microspheres are arranged and buried with parts thereof exposed, a reflection layer disposed at almost the focus positions of the transparent microspheres, and a transparent resin layer provided at least partially on a surface of the microsphere fixing layer, where the transparent microspheres are exposed. The transparent resin layer shifts the focus positions of the transparent microspheres to reduce the retroreflectance of the portions where the transparent resin layer is provided. The information is recorded with the use of a difference in retroreflectance between the portions where the transparent resin layer is provided and portions where the transparent resin layer is not provided.

Abstract: The electronic card comprises at least one integrated circuit disposed on a printed circuit board, connection means to an electrical supply source connected to the printed circuit board in order to supply said integrated circuit, and control means which can be actuated manually and are connected to the integrated circuit. The integrated circuit is provided for processing signals generated by the control means. Said integrated circuit, the control means at least a part of connection means to and the supply source are enclosed in at least one layer of insulating material forming said card. The control means are formed by an assembly of electrodes in order to define a touch screen with capacitive keys which can each be activated by means of a finger (D) of a user or a pen placed on one contact surface of the card opposite at least one touch key for introduction of data or a command.

Abstract: A martial arts student identification system is disclosed. The ID card is removably mounted to the belt. The ID card can be removed from the belt if it needs to be washed, or for when the student advances to a new belt. In one embodiment, a hook-and-loop fastener, such as VELCRO, is used to affix the ID card to the belt.

Abstract: A radio-frequency identification (RFID) tag includes: a plate-shaped sealing piece made of an elastic material. An inlet is enclosed within the sealing piece. The inlet includes an electronic component and an antenna connected to the electronic component. A pair of reinforcing pieces are located respectively on the front and back surfaces of the sealing piece so as to sandwich the electronic component. The reinforcing pieces are made of a first material harder than the elastic material. A joint piece configured to couple the reinforcing pieces to each other. The joint piece is made of a second material harder than the elastic material.

Abstract: To provide a card-like magnetic recording medium and a transferable laminate which can make a hologram distinctly recognizable and can prevent the occurrence of an ESD fault. In the card-like magnetic recording medium, on the magnetic recording layer 12 formed on the base material for a card 20, the transparent non-conductive deposited layer 14 and the transparent optical diffraction layer 15 are laminated in this order; between the magnetic recording layer 12 and the transparent non-conductive deposited layer 14, a reflective ink layer 13 which includes, at least, binder resin and metal flake, is formed; and a mass ratio of this binder resin/metal flake is set from 3 to 10.

Abstract: A radio frequency identification tag includes: a resilient base sheet; an electronic component; a reinforcing member having at least one concave portion at a periphery of the reinforcing member; and an antenna including a dipole portion and an inductance portion, the inductance portion having an impedance matching with that of the electronic component and being formed in a loop shape; the inductance portion being partly covered by the reinforcing member, the loop shape of the inductance portion being narrowed where the loop shape runs under the concave portion of the periphery of the reinforcing member and being widened outside of the reinforcing member.

Abstract: The assembly (22) involved in the fabrication of electronic cards comprises a plate (14) exhibiting a plurality of apertures (16) in which are respectively housed a plurality of electronic modules (2). These electronic modules are assembled to the plate 14 by fixing means, in particular by fixing bridges leaving a slot (26) over the major part of the surround of the electronic module. For example the fixing means are formed by projecting parts (18) at the periphery of the apertures (16), these projecting parts exhibiting a smaller thickness than the thickness of the plate (14) and serving as supports for the electronic modules, in particular for a substrate (12) of these modules. Fixing is performed for example by welding or adhesive bonding. The invention also relates to an intermediate product formed by such an assembly and a filing material that fills at least the major part of the remaining space in the apertures (16).

Abstract: An authentication seal suitable for affixing to physical objects sought to be notarized, legalized or otherwise authenticated, the authentication seal including an object interface layer including an adhesive surface for fixed engagement with a surface of an object sought to be authenticated, an inlay layer, fixed to the object interface layer, the inlay layer including a substrate having embedded thereon a wireless communication antenna coupled to an electronic chip device containing authentication information which is wirelessly readable via the wireless communication antenna and an outer layer, fixed to the inlay layer and having visually sensible authentication indicia thereon.

Abstract: An RFID tag comprises a semiconductor chip storing therein information of an object to be discriminated and carrying out radio communication with a reader/writer device; and an antenna coil provided with a magnetic core member and connected electrically to the semiconductor chip. The semiconductor chip and the magnetic core member are wrapped by an insulation sheet carrying an interconnection pattern connecting a pad of the semiconductor chip and the antenna coil electrically and plural coil patterns on one side thereof. The plural coil patterns includes bar-shaped conductor patterns formed obliquely to the magnetic core member, each of the bar-shaped conductor patterns having an end connected to an end of an adjacent coil pattern, the bar-shaped conductor patterns thereby forming together a spiral coil around the magnetic core member. The coil patterns being connected with each other at a part where the coil patterns overlap with each other.