An integrated circuit having Radio Frequency Identification components and circuitry used for authentication is discussed. The RFID components and circuitry include two or more coils and corresponding electrical circuits that are tuned to use two or more different resonant frequencies including: a first resonant RF used for power generation and a second resonant RF used for data communication. The integrated circuit contains a unique signature that is used for the authentication with two or more aspects including i) a first aspect that is a programmed password in a memory embedded on the integrated circuit, and ii) a second aspect that is a unique, randomly generated code based upon a physical characteristic of the integrated circuit.

An integrated circuit having Radio Frequency Identification components and circuitry used for authentication is discussed. The RFID components and circuitry include two or more coils and corresponding electrical circuits that are tuned to use two or more different resonant frequencies including: a first resonant RF used for power generation and a second resonant RF used for data communication. The integrated circuit contains a unique signature that is used for the authentication with two or more aspects including i) a first aspect that is a programmed password in a memory embedded on the integrated circuit, and ii) a second aspect that is a unique, randomly generated code based upon a physical characteristic of the integrated circuit.

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. In some embodiments, all or a portion of the booster antenna may at least partially shield the RF module when the RFID switch device is in an inactive state.

A dynamic transaction card that is manufactured using conductive plastic jumpers that will dissolve when in contact with a solvent used to tamper with the dynamic transaction card. Internal components of a dynamic transaction card may be manufactured using a synthetic or semi-synthetic organic material, such as, for example, plastics. These materials may be conductive to provide functionality to a dynamic transaction card, such as a connection between an integrated circuit and other card components such that when the materials dissolve, the connections are broken and the dynamic transaction card may be inactive due to the loss of various connections.

A method of fabricating ultra-thin semiconductor devices includes forming an array of semiconductor dielets mechanically suspended on a frame with at least one tether connecting each semiconductor dielet of the array of semiconductor dielets to the frame.

A card management method, a user terminal, a server, a card management system and a storage medium are provided. The method includes: sending a card binding message to a server, wherein the card binding message includes card authentication information of a card to be bound; receiving a card type of the card to be bound and dedicated card information for the card to be bound sent by the server, wherein the dedicated card information includes a card transaction identifier; loading the dedicated card information for the card to be bound onto a security element, wherein the dedicated card information for the card to be bound together with matching universal personalization data are useable to perform transaction verification of the card to be bound, and the matching universal personalization data is first-type universal personalization data or second-type universal personalization data that matches the card type of the card to be bound.

A card management method, a user terminal, a server, a card management system and a storage medium are provided. The method includes: sending a card binding message to a server, wherein the card binding message includes card authentication information of a card to be bound; receiving a card type of the card to be bound and dedicated card information for the card to be bound sent by the server, wherein the dedicated card information includes a card transaction identifier; loading the dedicated card information for the card to be bound onto a security element, wherein the dedicated card information for the card to be bound together with matching universal personalization data are useable to perform transaction verification of the card to be bound, and the matching universal personalization data is first-type universal personalization data or second-type universal personalization data that matches the card type of the card to be bound.

The invention concerns a RFID label for marking containers or equipment, preferably in a laboratory environment and including in particular cylindrical bottles, vials, syringes, etc., by adhering the RFID layer to a surface thereof. The RFID label has a flat flexible support material base (11), at least one RFID microelectronic device (5c) included in the flat support material base (11), and at least one antenna (5a,5b) connected with the at least one RFID microelectronic device (5c) and included in the flat support material base (11). The flat support material base (11) has a number of predefined cuts (8) distributed about its outer periphery and/or the at least one RFID microelectronic device (5c) includes a tamper detection function and a conductive loop (5d) connected with tamper detection function terminals of the RFID microelectronic device (5c) is included in the flat support material base (11).

The invention concerns a label 1 for marking containers or equipment by adhering the label to a surface thereof, the label 1 comprising a support material base 11, at least one RFID microelectronic device 5c included in the support material base 11, and a plurality of antennas 5a,5b for different frequency ranges connected with the at least one RFID microelectronic device 5c and included in the support material base 11, wherein the plurality of antennas 5a, 5b include a first antenna 5a for the frequency range of 860 to 960 MHz and having a theoretical read range peak of more than 4 m when provided on a glass surface, wherein the label has a dimension of 40 mm*20 mm or less.

An apparatus for securing and storing a payment card having a hollow container body with a back side for mounting to a vehicle. A lockable door attached to the front of the container body provides controlled access by a user to an interior chamber within the container body, said interior chamber serving as a secure compartment for storing a payment card. A retractable tether line couples the payment card to the interior chamber of the container body. A retractable spool that is biased to retract the tether line is mounted within a spool housing. The spool housing may be attached to the interior chamber or alternatively, to a proximal end of the payment card. A user-actuated trigger is attached to the spool housing and is configured to allow a user to apply tension to the tether line to halt the extension and retraction of the tether line.