Abstract: This present invention serves to simplify manufacture of a contactless data transmission device (50). This device (50) has an electrically insulating carrier (1), a circuit element arranged on the carrier (1) made from a continuous antenna conductor track (2) in the form of at least one spiral winding (4, 5, 6) and respectively one terminal contact (15, 16) at the ends thereof as well as an electronic component (3) with at least two contact points (11, 12) electrically connected with the circuit element. The electronic component (3) is placed in a mounting region (10) above the at least one spiral winding (4, 5, 6). The at least two contact points (11, 12) of the component (3) are electrically connected with a respective terminal contact (15, 16) of the antenna conductor track (2). At least one spiral winding (4, 5, 6) is branched outside the mounting region (10) between two respective branching points (7?, 7?; 8?, 8?; 9?, 9?) into at least two spiral winding branches (4?, 4?; 5?, 5?; 6?, 6?).

Abstract: A method of manufacturing a smart card (20) embedded with an integrated circuit module (28) and an antenna coil (8) includes step (a), embedding an antenna coil (8) on a core sheet (6), (b), laminating the core sheet (6) with a number of outer sheets (10, 12, 14, 16) to form a laminated panel (18), (c), forming a cavity (22) in the laminated panel (18) to expose two ends (24) of the antenna coil (8), and (d), connecting two electric contact regions (30) of an integrated circuit module (28). The exposed ends (24) of the antenna coil (8) are connected by a mezzanine electrode diffusion welding method, controlled by a transformer output manipulation energy output control method.

Abstract: The Erasable Barcode prevents the sale of products by invalidating the barcode. The invalidation can be based on shelf life, or improper temperature maintenance. The invalidation is also visible to humans so that the consumer knows if the exposure occurs after purchase. Activation brings liquid from the first reservoir in contact with the migration medium. The liquid progressively produces a change in color over time in the migration medium. When the liquid has crossed the migration medium, it will come in contact with the absorptive medium. The absorptive medium will then rapidly change color.

Abstract: Described herein are methods and apparatuses for manufacturing a pre-cut plastic card structure via laser cutting, having a plastic card, plastic card prelaminate and sticker separable from the plastic card structure. The plastic card prelaminate includes a first plastic sheet, a first adhesive layer arranged below the first plastic sheet, a release layer arranged below the first adhesive layer, a laser barrier layer arranged below the release layer, and a second plastic sheet arranged below of the laser barrier layer.

Abstract: A semiconductor device capable of wireless communication, which has high reliability in terms of resistance to external force, in particular, pressing force and can prevent electrostatic discharge in an integrated circuit without preventing reception of an electric wave. The semiconductor device includes an on-chip antenna connected to the integrated circuit and a booster antenna which transmits a signal or power included in a received electric wave to the on-chip antenna without contact. In the semiconductor device, the integrated circuit and the on-chip antenna are interposed between a pair of structure bodies formed by impregnating a fiber body with a resin. One of the structure bodies is provided between the on-chip antenna and the booster antenna. A conductive film having a surface resistance value of approximately 106 to 1014 ?/cm2 is formed on at least one surface of each structure body.

Abstract: This disclosure includes a method for manufacturing a portable data carrier, an inlay for a data carrier, and a data carrier. A data carrier body has a gap for a chip and a chip is incorporated into the gap. In a subsequent step a cover layer is laid on the data carrier body, and the data carrier body and the cover layer are laminated. After the incorporation of the chip and before the lamination, a stabilizing agent is applied into the gap of the core layer, which remains soft or flexible during the lamination and cures or is activated (e.g. by means of UV radiation) only after the lamination, in order for mechanical tensions to be avoided.

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: A multilayer film element and a method for producing the same. The multilayer film element includes a flexible dielectric carrier layer having a layer thickness of less than 800 ?m and has a first electrically conductive layer, in which a first coil-shaped conductor track is shaped in a first region of the film element, and a second electrically conductive layer, in which a second coil-shaped conductor track is shaped in the first region. The dielectric carrier layer is arranged between the first and second electrically conductive layers, and the first and second conductor tracks overlap at least in regions and are coupled to one another to form an antenna structure.

Abstract: An RFID tag for stably holding an RFID inlet 3 raised and spaced apart with respect to an article, on which the tag is placed and a method of attaching such an RFID tag. Allow the RFID tag to be raised from a surface of an article by being flexed to bring the RFID tag into contact with a head portion of a banding band. A through hole 8 defined in a tag base 2 allows insertion of the banding band. The hole 8 includes a first through bore 8A and a second through bore 8B. The tag base 2 includes a base region 2A for raising a holding region and a holding region 2B for an RFID inlet 3 for being reused. The base region 2A raises an RFID inlet 3 with respect to an article, and the holding region inlet 2B having the RFID inlet 3 is allowed to be raised from the base region.

Abstract: Magnetic stripe-based transaction enabled mobile communication device embodiments are presented which generally involve a mobile communication device which has been configured to perform transactions that heretofore were completed using a magnetic stripe found on magnetic-stripe cards. In one general embodiment, a mobile communication device generates magnetic stripe data which is used to perform a magnetic stripe-based transaction. To this end, the mobile communication device includes a magnetic stripe device and a computing device. The computing device stores the magnetic stripe data, and the magnetic stripe device is employed to transfer the stored magnetic stripe information so that it can be used to conduct transactions as if a traditional magnetic stripe card were being used.

Abstract: A wireless communication device includes a wireless IC device, a multilayer substrate including a stack of a plurality of dielectric layers, a resonant circuit that is connected to the wireless IC device and that includes a capacitance element provided in the multilayer substrate and an inductance element provided outside the multilayer substrate, and a radiation conductor connected to the resonant circuit.

Abstract: A radio frequency identification (RFID) device is disclosed. The RFID device includes a silicon substrate having a top side and a bottom side. The RFID device also includes a plurality of circuitry layers formed on the top side of the substrate, and the plurality of circuitry layers include at least a core circuitry and an on-chip antenna. Further, the RFID device includes a plurality of deep openings formed in the substrate on the bottom side under the plurality of circuitry layers. The plurality of deep openings are arranged in an array and through a substantial portion of the substrate, and a remaining portion of the substrate unreached by the plurality of deep openings separates the plurality of deep openings and the plurality of circuitry layers.

Abstract: A pad of labels for use on store shelves in a retail environment. The pad of labels include labels with adhesive strips applied to a bottom surface of each label and a top laminate layer with a release coating applied to the top surface of each label. The labels in the pad are sequenced according to a store's planogram.

Abstract: The laminated RFID tag, mountable to a part of a personal care appliance, has rounded corners or a round peripheral edge, which is adapted to prevent absorption of water or other solvents.

Abstract: A label for use on store shelves in a retail environment. The label include adhesive strips applied to a bottom surface of each label and a top laminate layer with a release coating applied to the top surface of each label.

Abstract: This invention relates to a smart card (1) manufacturing method that makes it possible to reduce the thickness of the said smart card and directly obtain a final 3FF or 4FF format. The smart card manufacturing method comprises steps for depositing resin forming a first protective coat (11) over the electronic element assembly with a surface greater than the required smart card format and depositing a second protective coat with a format larger than the required card format on the first protective coat. The second protective coat is fixed to the first protective coat by curing the first protective coat, and then the assembly obtained in that way is cut to the required format.

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: A conductive coupling frame (CF) having two ends, forming an open loop, disposed surrounding and closely adjacent a transponder chip module (TCM), and substantially coplanar with an antenna structure (AS, LES) in the transponder chip module (TCM). A metal card body (MCB) having a slit (S) extending from a module opening (MO) to a periphery of the card body to function as a coupling frame (CF). The coupling frame (CF) may be thick enough to be non-transparent to RF at frequencies of interest. A switch may be provided to connect ends of the coupling frame (CF) across the slit (S). The transponder chip module (TCM) may comprise a laser-etched antenna structure (LES) and a non-perforated contact pad (CP) arrangement.

Abstract: A tamper-proof barcoded quality indicator operative to provide a machine-readable indication of exceedance of time and temperature thresholds following actuation thereof, including a first barcode including a first colorable area and being machine-readable before exceedance of the time and temperature thresholds, a second barcode including a second colorable area and not being machine-readable before exceedance of the time and temperature thresholds, a coloring agent located at a first location on the indicator, a coloring agent pathway operative to allow the coloring agent to move, at a rate which is at least partially a function of time, from the first location to the first and second colorable areas simultaneously for simultaneous coloring thereof upon exceedance of the time and temperature thresholds, thereby causing the first barcode to become unreadable and at the same time causing the second barcode to become machine-readable, and a tamper-proof actuator element operative to actuate the indicator.

Abstract: A matrix of tags is provided including a plurality of RFID identification tags, each RFID tag having an identification layer, arranged on an object to be identified, the identification layer bearing at least one antenna and at least one chip including capacity for storing an item of identification data, the identification layer containing a bonding face arranged on a wall of the object; a backing layer, arranged on the side of the bonding face of the identification layer; a transfer layer, arranged on the side opposite to the backing layer relative to the identification layer, the transfer layer being provided for transferring the identification layer onto the object and a protective layer, arranged between the identification layer and the transfer layer, provided for protecting the identification layer when the tag is put in place; the transfer layer is produced in a single piece for the set of tags.

Abstract: A smart card module includes a carrier; a chip arrangement arranged over a first side of the carrier; and an antenna arranged over a second side of the carrier, wherein the second side of the carrier is opposite the first side of the carrier. The antenna is electrically conductively connected to the chip arrangement in order to transmit electrical signals. The smart card module further includes a display module arranged over the first side of the carrier; and at least one electrical line structure arranged on the first side of the carrier, which electrical line structure electrically conductively connects the chip arrangement and the display module to one another.

Abstract: In a read label as an information recording medium and a method for recording information thereon according to the present invention, the read label includes: an adhesive layer 3; a metal film layer 4 disposed on the surface of the adhesive layer 3; and a light-transmissive protective film layer 5 disposed on the surface of the metal film layer 4. The adhesive layer 3 and the light-transmissive protective film layer 5 are larger in thickness than the metal film layer 4, and an evaporated and removed portion is formed in a part of the metal film layer 4 by radiating a laser beam from the side of the light-transmissive protective film layer 5.

Abstract: A method and system is provided for gifting using interactive multimedia and a gifting system. The gifting system can include a gift card, a website for redeeming the gift card, a plurality of gift representations corresponding to actual gift items, and means for advertising additional retail products or services to consumers. The gift card can also include a greeting card and a unique card identifier associated with the user. The gift card may be viewable through a window on the greeting card. The methods and systems can be used to advertise products to consumers, which can be purchased for personal use or for gifting. The system can be used to direct consumers to a card issuer's website. The gift card may be physical and/or virtual, and may be translated between physical and virtual forms.

Abstract: A tamper-resistant electronic system includes a destructible vinyl (DV) substrate having conductive wiring disposed on a first surface of the DV substrate. An RFID device has pins mechanically and electrically connected to the wiring on the first surface of the DV substrate. A plate has a first surface, and a portion of the first surface of the plate is adhered to a portion of the first surface of the DV substrate. The plate has a cavity that encompasses the RFID device. A backing is adhered to a second surface of the plate opposite the first surface of the plate.

Abstract: The present invention relates to a label for marking items comprising a carrier material with a top side and a bottom side. The carrier material is printable at least on the top side. Adhesive layers are provided on the bottom side and the top side, wherein at least the adhesive layer provided on the top side can be activated for example by heat.

Abstract: A laminate having a multilayer structure includes a clear film layer, a transfer tape adhesive layer, a microprint text layer, at least one layer with repeating patterns having colorshift properties, and a fluorescent layer with repeating second patterns. The microprint layer, the at least one layer with repeating patterns having colorshift properties, and the fluorescent layer with repeating second patterns are arranged between the clear film layer and the transfer tape adhesive layer.

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: The present invention provides value tokens having improved security while achieving enhanced decorative effects, contrasting edge “spots”, increased physical weight, and flexibility of construction and design. Stacked structures formed from pluralities of layers are featured.

Abstract: The present invention provides a multi-layered personalized page comprising a PET incsti/PU hinge layer; a PC inlay with chip antenna layer with an electric component with personal data of a holder of a passport; two PC core layers with artwork; and two PC overlay layers.

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: An encoding module and related systems and components are provided. The encoding module includes a plurality of encoding elements arranged in an array of columns and rows and one or more switching elements configured to selectively connect the encoding elements to a reader. The connection of the encoding elements may be based on the location of a targeted transponder disposed among multiple adjacent transponders to ensure the selective communication with the targeted transponder only. The module is configured for various types and locations transponders to be used within a system, such as a printer-encoder. Each encoding element may include a loaded conductive strip comprising a loop shape portion and a shield that corresponds to the loop shape portion. In another embodiment, an access control system having an encoding module with the plurality of couplers and an access card having a plurality of transponders corresponding to the couplers is provided.

Abstract: One variation of a method for controlling a payment card (including a magnetic stripe emulator, a processor, and an input region) includes: establishing a wireless connection with a mobile computing device; receiving, over the wireless connection, a first magnetic sequence command corresponding to a first payment method and a second magnetic sequence command corresponding to a second payment method; initiating a payment mode comprising a disable trigger; in response to selection of the first payment method through the input region, arming the processor to drive the magnetic stripe emulator according to the first magnetic sequence command in the payment mode; in the payment mode, dismissing selection of the second payment method through the input region; and in response to instance of the disable trigger, disabling operation of the magnetic stripe emulator.

Abstract: A tag assembly is described wherein the tag assembly is affixable to clothing and/or a body and wherein the assembly includes a support sheet; a tag disposed on the support sheet, the tag being configured to transmit a signal to a receiver; and, an expandable spacer structure disposed the support sheet, the expandable spacer structure providing a predetermined spacing between the tag and the body, the expandable spacer being configured to expand from a thin non-expanded state to a expanded state of a predetermined spacer thickness.

Abstract: An electromagnetic coupling module includes a wireless IC chip and a functional substrate. The electromagnetic coupling module is mounted on a radiation plate, preferably using an adhesive, for example. On the upper surface of a base material of the radiation plate, two long radiation electrodes are provided. On the undersurface of the functional substrate, capacitive coupling electrodes that individually face inner ends of the radiation electrodes are provided. A matching circuit arranged to perform the impedance matching between the wireless IC chip and each of the radiation electrodes includes the capacitive coupling electrodes. As a result, it is possible to reduce the size, facilitate the design, and reduce the cost of a wireless IC device.

Abstract: Card security apparatus and methods are provided. An obstruction layer (e.g., a hot-stamped scratch off foil label) may be provided in at least partially overlapping relation to a data field of a card (e.g., including proprietary information unique to the specific card). The obstruction layer may render all or at least a portion of the card data field unreadable in the presentation position. All or at least a portion of an exposed data field, such e.g., as an activation field, may be disposed on an outer surface of the obstruction layer such that the activation field is readable with the obstruction layer in the presentation position. Displacement of the obstruction layer may render the exposed data field, e.g., activation field, unreadable (e.g., via destruction of all or at least a portion of the obstruction layer) and the data field readable.

Abstract: The light-emitting diode is provided with a lid and is capable of emitting a first predefined color. The card further comprises a near field communications antenna circuit, the circuit and the diode being configured so that the diode emits light when a current of predefined intensity flows in the circuit. More particularly, the lid of the diode is coated with a mass of material forming means for selecting a set of wavelengths from those making up the first color so that the light transmitted through the mass has a second predefined color different from the first color.

Abstract: One variation of a method for controlling a payment card comprising a magnetic stripe emulator and a set of input regions includes: receiving a tap input on a surface of the payment card; in response to receiving the tap input, attempting wireless communication with a mobile computing device; suppressing a payment function of the magnetic stripe emulator in response to failed wireless communication with the mobile computing device; receiving a series of inputs through the set of input regions; authenticating the series of inputs as a passcode; and, in response to authenticating the series of inputs as the passcode, enabling the payment function of the magnetic stripe emulator.

Abstract: A contactless portable device including a support layer and a protective layer, the support layer having, on its first side, an antenna made up of a flat winding of turns and a protective layer glued to the first side of the support layer, the antenna having two cuts, two wires and four ends including two connection ends for connecting a chip, and two ends each connected to a contact separated from one another by a narrow space so as to render the antenna open, such that the antenna is closed by flow of a current between the two contacts through the protective layer when a user places a finger on the protective layer where the contacts are located, and enabling communication between the chip and a reader associated with the contactless portable device.

Abstract: Embodiments of the invention relate to payment cards and methods for making payment cards. In one embodiment, a card comprises a first layer and a second layer adjacent to the first layer. The second layer comprises a plurality of particles comprising metal, and the plurality of particles comprise at least about 15 volume % of the second layer. In another embodiment, a mixture is prepared comprising polymer and a plurality of particles comprising metal. The plurality of particles comprise at least about 15 volume % of the mixture. The mixture is pressed and an outer layer is applied. The mixture and outer layer are then cut to form the card.

Abstract: An electronic device is protected from unauthorized access by use of a security wrap having a security screen connected to an alarm circuit of the electronic device. The security screen has a pair of screen terminals interconnected by a conductor. The conductor is formed on a substrate. The substrate is arranged such that attempts to remove the security wrap will result in the substrate being torn and the conductor being damaged or broken whereby the resistance of the conductive path formed by the conductor changes to indicate an alarm condition.

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: Radio frequency identification (RFID) devices for use in RFID-based sensors and related methods are described herein. In one implementation, an RFID sensor system includes an RFID device having a near field only RFID tag and a conductive element which functions as a far field antenna. The near field only RFID tag and the conductive element are located in at least a first position and a second position relative to each other; wherein in the first position, the RFID device only operates in a near field, and in the second position, the RFID device operates in both the near field and a far field. The system may also include an RFID reader and controller located within the far field to read the RFID device only when the components are located in the second position.

Abstract: Radio frequency identification (RFID) devices, and methods of manufacture are described herein. In one implementation, an RFID device comprises a near field only RFID tag that does not function as a far field RFID tag and is pre-manufactured; and a conductive element independent from the near field only RFID tag and configured to function as a far field antenna, wherein the conductive element extends a length and includes a central region and includes at least one distal region defining a voltage end of the conductive element. The near field only RFID tag and a distal region of the conductive element are coupled in proximity to each other such that the RFID device functions in both a near field and a far field.

Abstract: Provided are a card and card manufacturing method that enable clear visual recognition of a display in a display portion even if the card surface has been provided with a matte finish, and enable an improvement in texture related to position drift between a display device and a window portion, as well as an improvement in workability during manufacture. The card (1) has: a display portion (10); an electronic component that controls a display to the display portion (10); a surface layer (20) placed as the topmost layer of the card (1) and formed from a clear material; a mirror-surface portion (21) provided on a portion that overlaps the display portion (10); and a matte portion (22) provided on a portion outside the mirror-surface portion (21), said matte portion (22) having a coarser grain than the mirror-surface portion (21).

Abstract: A reader/writer antenna module includes a flexible substrate that includes a first base portion, a second base portion and a bending portion that connects the first base portion and the second base portion to each other. The flexible substrate has a structure that is folded by utilizing the flexibility of the bending portion such that a first main surface of the first base portion and a first main surface of the second base portion face each other, and a magnetic layer is provided between an antenna conductor and the chip component in the folded structure.

Abstract: Described herein are RFID structures and methods of manufacturing RFID structures. An antenna substrate is provided. A first stack layer is provided. An antenna assembly including an antenna track, and at least two contact pads, are formed on a first surface of the antenna substrate. An integrated circuit unit is coupled to the at least two contact pads. A first surface of the first stack layer, the first surface of the antenna substrate, or both are coated with a unidirectional thermally expansive coating material. The first surface of the antenna substrate is positioned to be adjacent to the first surface of the first stack layer.

Abstract: A random-type multilayer identifier uses an identification pattern that is formed by irregularly-dispersed identification particles as unique information and is configured in such a manner that two or more identification layers made out of a transparent material are stacked each other, and besides, has an advantage that significantly reduces the duplication possibility of an existing identifier provided in a printed manner, such as a QR code, a barcode, a hologram, etc., because multiple identification layers having the irregularly-dispersed identification particles are stacked each other and recognized as two-dimensional data.

Abstract: Laser etching antenna structures (AS) for RFID antenna modules (AM). Combining laser etching and chemical etching. Limiting the thickness of the contact pads (CP) to less than the skin depth (18 m) of the conductive material (copper) used for the contact pads (CP). Multiple antenna structures (AS1, AS2) in an antenna module (AM). Incorporating LEDs into the antenna module (AM) or smartcard (SC).

Abstract: Conventional Near Field Communication (NFC) authentication devices sometimes waste their users' time by requiring users to repeatedly reorient the devices to an NFC reader to complete authentication. To reduce the need for this reorientation, the present inventors, devised, among other things, an authentication assembly including two or more antennas configured for connection to a single NFC-tag circuit. In some embodiments, the assembly is built into an adjustable ring that can authenticate a user to an NFC-equipped electronic device, for example a smart phone, associated with the ring. In this configuration, each of the antennas generate a magnetic field generally perpendicular to an outer surface of the ring when excited with an appropriate signal, providing the ring with multiple options for establishing an inductive coupling to an NFC sensor in the electronic device without requiring the user to reorient the ring.

Abstract: A transferable film includes a carrier layer and an intermediate portion. The carrier layer is configured to receive one or more additional layers and to be releasable from the one or more additional layers temporally proximate to an application of the transferable film to an object. The intermediate portion includes the one or more additional layers and a circuit. The one or more additional layers include a graphics layer. The intermediate portion is configured for application thereto of an adhesive layer, whereby the intermediate portion is configured to be interposed between the carrier layer and the adhesive layer. The adhesive layer is configured to adhere to the object for the application of the transferable film to the object.