Abstract: An RFID tag and an RFID access card configured to reduce detuning effects from a typical RFID environment. The present invention provides an RFID tag that is specifically configured to reduce the detuning effects caused by initiating communication between an RFID tag and an RFID tag reader in the presence of materials such as metal, liquid, and the human body. In one embodiment, the present invention provides an RFID tag comprising an electronic circuit portion attached to a main antenna body portion, the main antenna body portion having two opposite side portions, which are substantially symmetrical with respect to one another, wherein each side portion extends outwardly to form a generally side-oriented v-shape.

Abstract: A linerless media comprising selectively applied adhesive to allow cutting through a non-adhesive portion of the linerless media. The linerless media can be a linerless media web or linerless media labels with alternating adhesive portions and non-adhesive portion provided along a length of the linerless media web or linerless media label. The adhesive portion applied to the linerless media web or label can be an adhesive bar code.

Abstract: A tag assembly is disclosed for attaching an RFID tag including a primary antenna to a flexible surface such as fabric, textile or an item of clothing. The tag assembly has a receptacle including a frame for securely holding the RFID tag, a secondary antenna, and attachment means for attaching the frame to the surface, wherein the frame forms part of the secondary antenna. A method of attaching an RFID tag to a flexible surface is also disclosed.

Abstract: A data carrier card and a method for producing a data carrier card, in particular a chip card or magnetic stripe card. The data carrier card has a card body having one or several foils, where the foil or at least one of the foils is a coextruded foil having at least two areas with different material properties. The use of coextruded foils makes it possible to form in a simple manner different areas in the card body which differ from each other in material quality. In particular, it is possible to form for example a data carrier card with a card body having a plurality of alternating opaque and transmissive strips or with window strips and/or windows enclosed in the surface of the card body.

Abstract: A multilayer contactless smartcard 10 including an electronic chip embedded in the card, the chip being connected to an antenna 22 printed on a carrier layer 20, and two card bodies, one on each side of the carrier, each including at least one plastic layer 40 and 60. The antenna carrier is opaque and includes a first cut-out forming a void 23 filled with a transparent plastic; and the plastic layers of the two card bodies each include a second cut-out forming two identical voids 43 and 63 the outlines of which superimpose, in order to make a transparent zone appear in the thickness of the card, forming a transparent logo in the shape of the cut-out. A process for manufacturing such a card is also disclosed.

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: An anti-tamper label comprises a core; an adhesive layer disposed on one side of the core; and an adhesion-resistant layer disposed on the other side of the core.

Abstract: A reversible thermosensitive recording medium including an electronic information recording sheet having at least an electronic information recording element projecting from a surface thereof, a first sheet having a through hole into which the electronic information recording element can be inserted, and a second sheet having a cut-out portion capable of housing the entire electronic information recording sheet, wherein the second sheet houses in the cut-out portion the entire electronic information recording sheet, with being laid over the first sheet, and the electronic information recording element inserted into the through hole.

Abstract: An inductive identification card on which a card holder's identifying information is recorded in order to recognize the holder's identity via a visual inspection. The identification card is provided with a sensor film on the surface having sensor points which are distributed on its exterior, blocking points corresponding to the identifying information on the identification card, and locally changing electrical responses of sensor points in advance so that different response signals corresponding to detective signals which are applied to the sensor film are generated by the blocking points and peripheral regions, respectively. Authenticity of the identification card and the card holder's identity are recognized by determining locations of response signals.

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: A card formed in accordance with the invention includes a first assembly comprised of multiple plastic layers attached via an adhesive to a metal layer. The multiple plastic layers forming the first assembly are laminated under a first selected temperature and pressure conditions to preshrink the multiple plastic layers, stress relieve the first assembly and render the first assembly dimensionally stable. The laminated first assembly is then attached to a metal layer via an adhesive layer to form a second assembly which is then laminated at a temperature below the first selected temperature to form a card which is not subjected to warpage and delamination.

Abstract: A method for personalized labeling of decal decorated item at a point of sale for consumer by laminating a personal label on or adjacent a preexisting decal applied to the item. The personal label may comprise an access code to a secure information source, identification information or a greeting.

Abstract: An example embodiment includes a transaction card. The transaction card includes a card body and information. The card body is made from a precious metal alloy. The card body has a front surface and a back surface. At least some portion of the information is defined by disruptions to the precious metal alloy of the card body.

Abstract: The specification discloses an outsert assembly for pharmaceutical and other containers. The assembly includes an outsert, a tape holding the outsert in a folded configuration, and a machine-readable identifier on the tape. The machine-readable identifier may include e-pedigree information. The outsert may include printed dosage information and relevant medical warnings.

Abstract: A wearable RFID device is configured with a geometry and materials that allow an HF RFID system and a UHF RFID system to operate in close proximity to a human body and to each other with minimal impact on performance. An RFID device may have a three-dimensional, multi-planar UHF antenna incorporated into a dielectric core with an HF antenna, or a single-plane UHF antenna separated from an HF antenna by a rigid spacer. A conductive metal backplane is disposed adjacent the wearable RFID device to improve antenna performance when disposed in close proximity to an absorbing body, such as a human being.

Abstract: A security element or film materials for data carriers, valuable documents, packing and the like. The security element includes a magnetic coding that is produced in situ. The invention also relates to a method and a device for producing the magnetic coding in situ.

Abstract: A multisided card having at least two obverse faces and two reverse faces that are adjacent one another, can be used to print and store relatively insecure information of the obverse faces and to have more sensitive information stored and printed on the adjacent reverse faces. To protect privacy, a caricature or cartoon of an individual can he placed on an obverse face, or in a virtual card, wallet or purse, which image cannot be read by facial recognition techniques but could be recognized by human observers.

Abstract: A dual-interface smart card comprises an integrated circuit (IC) module coupled to a plastic card body. The IC module includes multiple downwardly facing, externally exposed contact pads that are electrically coupled to corresponding externally exposed sections of a radio frequency (RF) antenna incorporated into the card body. Each contact pad is electrically connected to the RF antenna by a pair of opposing, stapled-shaped, conductive elements, with one conductive element being permanently welded to the contact pad and the other permanently welded to the antenna. Each conductive element includes a pair of resilient spring arms that maintain electrical connection between the contact pad and the antenna even upon movement of the IC module relative to the card body. To provide further redundancy of connection between each contact pad and the antenna, the resilient spring arms of the opposing conductive elements are encapsulated with a supply of conductive filler material.

Abstract: In various embodiments, a transponder inlay for a document for personal identification may include a cover; an adhesive layer arranged on the cover; a chip arranged on the adhesive layer; an antenna connected to the chip; and a top layer on the adhesive layer, wherein the top layer has a top and a bottom and wherein the bottom of the top layer is connected to the cover by means of the adhesive layer and wherein the antenna is arranged on the top of the top layer such that the antenna is at least to some extent physically separated from the adhesive layer by the top layer.

Abstract: The application discloses a heat weldable film comprising the flowing layers: (i) a first plastic polymer layer consisting of a material weldable to a plastic polymer reaction tube; (ii) an opaque second layer comprising pigments; (iii) a third layer consisting of a clear transparent material; wherein the material of the first and third layer differ. Furthermore, a reaction tube comprising a heat weldable film according to the invention is disclosed as well as a method for labelling of reaction tubes.

Abstract: The invention consists in an RFID label consisting of at least: one functional layer comprising at least one electronic component, one antenna connected to the electronic component; one upper layer; one lower layer having an adhesive surface; wherein the upper and lower layers consist of one or more materials capable of resisting to ultraviolet radiation and/or of filtering the ultraviolet radiation. The invention also includes the method for manufacturing the RFID label and the machine applying the method for manufacturing the RFID label.

Abstract: An RFID tag includes: a base sheet in which a plurality of first slits are formed to extend alternately from two opposite sides from an end of the base sheet; an antenna pattern provided on the base sheet by folding the antennal pattern to avoid the first slits; an RFID chip provided over the base sheet and electrically connected to the antenna pattern; an elastic sheet provided over any one of a top surface and a bottom surface of the base sheet; and a protective sheet provided on a surface of the elastic sheet opposite to the surface that is in contact with the base sheet and including second slits formed to correspond in position to the first slits of the base sheet.

Abstract: Weighted transaction cards and methods of manufacturing the same. The weighted transaction cards may include a tungsten member that comprises at least a portion of a layer of the transaction card. The tungsten member may be encapsulated and/or disposed in an opening of a surround to define and inlay. The inlay may be laminated with one or more additional layers according to traditional card manufacturing techniques (e.g., a hot lamination process). The weighted transaction cards may have a weight significantly greater than traditional plastic transaction cards such that the weighted transaction cards.

Abstract: A sensor system comprising a tag. The tag comprises at least one radio-frequency chip, a first antenna disposed in electrical communication with the chip and a non-conductive coating disposed upon a surface of the tag. The chip comprises a memory element providing electrical storage of a binary coded word comprising at least one bit and output terminals. The antenna is in electrical communication with the output terminals. The non-conductive coating covers the chip and defines a perimeter. The perimeter is disposed over and exposes a portion of the antenna.

Abstract: Radio frequency communications are effected. In accordance with one or more embodiments, a radio frequency communication circuit includes an antenna having a conductor and a semiconductor chip having a lower substrate surface coupled with the conductor to pass data carried by radio frequency signals to a radio frequency communication circuit in an active layer on an upper surface of the substrate. Accordingly, communications are facilitated via the substrate and can alleviate the need to use through-substrate connectors and further facilitate placement of the chip on the antenna.

Abstract: A debit/credit card (chip card) having a body, storage element, at least one processor, a display element (LCD screen) and at least one touchpad, allowing a user to manually enter electronic information to be stored by the at least one storage element and displayed by the at least one display element, such that the at one display element displays the electronic information in the form of at least two credit and/or debit card transactions. A method of keeping track of a person's spending, the method involving providing a chip card, manually entering the electronic information; and viewing the electronic information on the at least one display element, the at least one display element displaying at least two credit and/or debit card transactions.

Abstract: The invention relates to an identification system, comprising an information carrier or a group of such information carriers, which allow a clear association of information. The invention further relates to the use of said information carriers, and to a device for reading said information carriers, wherein the information carriers are associated with a random action of a data processing system by way of the structured information layer thereof or can trigger such action. The invention furthermore relates to information carriers for access control systems, payment systems, ticket systems, and marketing application. According to the invention, overlaps of the information layer can be provided by applying additional layers, which achieve several advantages according to the invention, such as optically rendering the information layer unrecognizable, and resulting increased safety of the information carrier against manipulation.

Abstract: A powered card may include a circuit board with multiple layers, and may include multiple reader communication devices. One of the layers may include an RFID antenna. The layer including the RFID antenna may occupy an entire region of a card outside of a region including a magnetic stripe communication device.

Abstract: An RFID tag substrate on which an RFID tag that performs wireless communication with a reader/writer is disposed includes a substrate layer, and a functional layer laminated or stacked on the substrate layer. The functional layer includes a plurality of layers laminated together including a high-dielectric-constant layer having a predetermined dielectric constant, and a high-permeability layer having a predetermined permeability. A product of the predetermined dielectric constant and the predetermined permeability is not smaller than 250.

Abstract: The invention concerns a method for manufacturing a radio frequency identification device (RFID), featuring a flat and flexible substrate made of polycarbonate equipped with an antenna (14) composed of conductive ink fully encased in the polycarbonate and a chip or integrated circuit module (29) connected to the antenna, the antenna formed by the winding of several turns features a turn overlap zone, an insulating strip of dielectric material separating the turns of the antenna in the overlap zone, the edges of the device being completely uniform so that no lines of demarcation between the various layers are visible, thereby preventing all attempt of delamination of the device over its thickness.

Abstract: An improved card design and manufacturing method to produce thin gage, open loop system cards, such as credit cards, debit cards, prepaid cards, financial cards, and payroll cards. The thin gage card structure may vary between 5-15 mils in thickness (0.005? inches to 0.015? inches) on a one ply plastic material such as PVC or polyester. The majority of manufacturing steps can be performed on a rotary press in a single operation. Card personalization will be accomplished on a high-speed machine using ink jet for all variable information imaged on both the front and back, and accompanied by high speed encoding of magnetic stripe or activation of integrated circuit elements utilized in the electronic payment process.

Abstract: Dynamic magnetic stripe communications devices are provided as magnetic stripe emulators. A magnetic stripe emulator may include a coil. Drive circuits may be coupled to this coil in order to produce electromagnetic fields from the coil operable to communicate with a magnetic stripe reader.

Abstract: The present invention is directed towards a method of distributing and activating gift cards. The method is performed by attaching a non-activated gift card to an article and selling the article to a consumer. The article may be sold at a retail store, or ordered over a telephone line or online and delivered to a home of a consumer. After the consumer receives the gift card, the consumer may activate the gift card from the consumer's home or any other remote location. During activation, the consumer allocates a dollar valve to the gift card and then sends the gift card to a specific person as a gift. The gift card may also come with a greeting card and an envelope.

Abstract: One variation of a payment card includes: a sheet comprising first and second icons; a transducer configured to output a voltage in response to an impulse on the sheet; a wireless communication module; a first input region adjacent the first icon; a second input region adjacent the second icon; a magnetic stripe emulator; and a processor configured to transition from a passive state to an active state in response a voltage output from the transducer, to receive a first magnetic sequence command associated with a first payment method and a second magnetic sequence command associated with a second payment method, to assign the first payment method to the first input region and the second payment method to the second input region, to receive a selection for the second payment method from the second input region, and to control the magnetic stripe emulator according to the second magnetic sequence command.

Abstract: A transaction card having a first layer and a second layer, wherein the first layer is metal and the second layer is carbon.

Abstract: A card is fabricated by fixing together multiple boards. By fabricating a card from multiple boards, the reliabilities of the individual boards may be tested independently. Failure of a single board component may not, for example, result in failure of a card so long as the reliability of a single board is determined before the single board component is fixed to the other board component(s).

Abstract: The invention relates to a security tag made unique by randomly distributing a mixture of large numbers of multicolored small objects, such as two colored glass balls, into a regular geometric array or pattern onto a substrate and encapsulating those objects. The objects in the regular array on the substrate will create a unique, non-reproducible pattern. The data, saved to a secure database, can be processed and calculated quantities can be derived from the field of binary data, which can be affixed to the document or manufactured part that the stamp is affixed to. The regular array can be read out by scanner, quantities calculated, and compared to the values printed on the part or document. Additionally, the regular array can be read out by optical scanner and parts or all of the data compared to the data stored in the secure database.

Abstract: Systems and methods for integrating radio-frequency identification (RFID) circuitry into flexible circuits are provided. An RFID integrated circuit can be embedded within a dielectric layer of a flexible circuit or between a dielectric layer and a conductive layer of the flexible circuit. Additionally or alternatively, an RFID antenna may be integrated into a conductive layer of the flexible circuit. Alternatively, both the integrated circuit and antenna of RFID circuitry may be provided off of the flexible circuit but an RFID connector coupling the integrated circuit and antenna may be integrated into the flexible circuit.

Abstract: An RFID tag assembly and method of use with a helmet wherein the RFID tag assembly the RFTD tag assembly includes an RFID tag having a mounting substrate with an exposed first planar surface and an opposing second planar surface, the RFID tag having an RFID semiconductor chip has a predetermined operating frequency with an antenna interface mounted on the second planar surface, a conductor electrically coupled to the antenna interface of the RFID semiconductor chip, and an antenna electrically coupled to the conductor. A spacer has a first surface and an opposing second surface. The first surface of the spacer is attached to the second planar surface of the RFID tag. The spacer has a predetermined thickness between the first surface and the second surface.

Abstract: Channels may be formed in the inlay substrate of a transponder, such as by laser ablation, and the antenna wire may subsequently be laid in the channels. Laying the wire in a channel ensures that it substantially fully embedded in the substrate, thereby eliminating a need for pressing the wire into the substrate. The channels may be tapered, or profiled, to enhance adhesion of a self-bonding wire. A recess for the chip module can also be formed using laser ablation, and insulation may be removed from end portions of the antenna wire using laser ablation. Laser ablation may also be used to create various mechanical and security features.

Abstract: Disclosed is a RFID label, comprising a plane material, a separation layer, an antenna, a chip, adhesive and a cover paper. The separation layer is formed on a first surface of the plane material. The antenna is printed with conductive ink on the separation layer, which is formed on the first surface. The chip is connected to the antenna. The adhesive and the cover paper cover the antenna and the chip. With the adhesive, the RFID label can be sticked to an object. The separation layer can be fully or partially formed on the first surface of the plane material. The separation layer can be formed in reticulate patterns, regular intermittent patterns or patterns of overlapping and crossing over the antenna. When the RFID label is separated from the object, the antenna will be separated from the first surface of the plane material where the separation layer is formed.

Abstract: An RFID tag assembly for use in tracking or timing of a progress of a user and the method of operating thereof the assembly including an RFID tag having a mounting substrate with an exposed first planar surface and an opposing second planar surface with one adapted for selective attachment to a surface of a carrier and an RFID semiconductor chip having a predetermined operating frequency with an antenna interface mounted on the second planar surface, a conductor, an antenna and a spacer composed of a foam material that is non-conducting and non-absorbing of a substantial amount of energy at the predetermined operating frequency that is attached to the at least one of the first and second planar surfaces of the mounting substrate and is positioned between a surface of the body of the user and the RFID tag for positioning at a minimum spaced apart distance from the surface of the body of the user during operation of the RFID tag.

Abstract: A housing for a mine marker that houses RFID electronics. The RFID electronics is surrounded by a resiliently deformable tube that fits inside the housing, which may be an impact resistant plastic. The housing is filled with a first strengthening material and the tube may be filled with a second strengthening material. There is an impedance mismatch (a change in properties between adjacent layers so that shock waves are deflected) at the boundary between adjacent materials, (casing and first strengthening material, first strengthening material and tube, tube and second strengthening material, or casing and tube if they abut) which inhibits shock propagation.

Abstract: Systems and methods for identifying, tracking, tracing and determining the authenticity of a good are described herein. In some embodiments, a system includes an imaging system, a database, and an authentication center. The imaging system is configured to capture an image of a unique signature associated with a good at the good's origin. The unique signature can be, for example, a random structure or pattern unique to the particular good. The imaging system is configured to process the image of the good to identify at least one metric that distinguishes the unique signature from unique signatures of other goods. The database is configured to receive information related to the good and its unique signature from the imaging system; and is configured to store the information therein.

Abstract: An IC card includes a first visible layer including a natural material having a unique visual pattern. A storage device is configured to store a digital reference image of the unique visual pattern to be visually compared with the unique visual pattern for authentication. An authentication method based on the IC card is also provided.

Abstract: The invention relates to a laminate structure (30) for a chip card (31), comprising a base layer (35), a chip module (32) accommodated at least partially in the base layer, and at least one cover layer (39) that covers the base layer, wherein an intermediate space (61) formed between the chip module and the cover layer as well as between the chip module and the base layer is filled with an adhesive material, wherein the adhesive material generates adhesive forces with respect to the wetted surfaces of the base layer and of the cover layer and generates adhesive forces with respect to the wetted surfaces of the chip module as well.

Abstract: An RFID tag includes a first flexible sheet covering a surface of a base part, an antenna and an IC chip; a second flexible sheet covering an another surface of the base part; a first reinforcing member including third and fourth sheets and covering the chip and a connecting portion of the chip and the antenna, the third sheet having flexibility and elasticity and being disposed on the first sheet, the fourth sheet having flexibility and being disposed on the third sheet; a second reinforcing member including fifth and sixth sheets and covering the chip and the connecting portion, the fifth sheet having flexibility and elasticity and being disposed on the second sheet, the sixth sheet having flexibility and being disposed on the fifth sheet; and an outer member having flexibility and elasticity and covering the first and the second sheets and the first and the second reinforcing members.

Abstract: Various embodiments of RFID switch devices are disclosed herein. Such RFID switch devices advantageously enable manual activation/deactivation of the RF module. The RFID switch device may include a RF module with an integrated circuit adapted to ohmically connect to a substantially coplanar conductive trace pattern, as well as booster antenna for extending the operational range of the RFID device. The operational range of the RFID switch device may be extended when a region of the booster antenna overlaps a region of the conductive trace pattern on the RF module via inductive or capacitive coupling. The RFID switch device may further include a visual indicator displaying a first color if the RFID switch device is in an active state and/or a second color if the RFID switch device is in an inactive state.

Abstract: A method for producing a number of chip cards includes a step for preparing a supporting film comprising a number of locations each of which constituting a card support and being provided with a cavity capable of receiving an integrated circuit, a step for processing this supporting film carried out, in part, by a multi-head tool, one of the heads of this tool being provided for carrying out an operation on a location of the film essentially at the same time as another head of this tool carries out the same operation on another location of this film, and a step for separating the locations after the processing step.

Abstract: Radio frequency communications are effected. In accordance with one or more embodiments, a radio frequency communication circuit includes an antenna having a conductor and a semiconductor chip having a lower substrate surface coupled with the conductor to pass data carried by radio frequency signals to a radio frequency communication circuit in an active layer on an upper surface of the substrate. Accordingly, communications are facilitated via the substrate and can alleviate the need to use through-substrate connectors and further facilitate placement of the chip on the antenna.