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.

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.

A radio frequency identification (RFID) tag with a configurable anti-tamper structure includes an RFID chip electrically connected to a configurable anti-tamper structure. The configurable anti-tamper structure includes a plurality of conductive segments substantially oriented in a ladder configuration. At least some of the plurality of conductive segments are cut to leave a single conductive path in accordance to the desired tamper detection application, and the RFID tag is attached with the anti-tamper structure placed across a break point to be monitored for tampering. When tampering occurs, the conductive path is broken and the RFID chip changes the data sent in response to interrogation by an RFID reader.

A sealing tape to be used with a sealing device includes an adhesive surface to which an adhesive is applied and RFID tags are attached; and a non-adhesive surface being a back side of the adhesive surface. The sealing device includes a tape supply reel for supplying a sealing tape to which an RFID tag has been coupled; and a sealing part for sealing, with the sealing tape, an opening of a plastic packaging material holding a product, wherein the sealing part adheres the RFID tag, which is coupled to one end of the sealing tape having the length for one use, to an adhesive positioned on the other end portion of the sealing tape having the length for one use, wherein the RFID tag is broken by the adhesive strength with respect to the other end portion when the sealing tape sealing the plastic packaging material is torn.

The present application relates to an electronic document module comprising a medium having a so-called internal face provided with at least two contact interfaces with an antenna, each of the contact interfaces with the antenna of the internal face of the medium being configured to be in contact with a connection pad of an antenna of an electronic document body, and with a chip comprising at least one I/O port, and one of the two contact interfaces with the antenna of the internal face of the medium being connected to the I/O port of the chip. The application also relates to an electronic document comprising such a module and a method for checking a connection between the module and a corresponding antenna.

A tamper-evident RFID Tag (100) and a method for manufacturing it. The method (500) may provide (510) at least one protection layer (151) before being cured (520) such as to turn the at least one protection layer (151) into at least one degradable layer (155), and to prevent an assembly or a reassembly of the tamper-evident RFID Tag (100) after any attempt of harvesting of the tamper-evident RFID Tag (100).

A shield element for mounting on an object, in particular a flat object, such as a chip card. The object has a base body, an RFID or NFC transponder, a transponder chip and a coil-shaped transmission antenna connected to the RFID or NFC transponder chip. The shield element has a carrier made of non-conductive material. The carrier has a closed or closable conducting path which, upon mounting the shield element on the object, shields the object from the electromagnetic fields generated by an external reading device and directed at the transmission antenna of the RFID or NFC transponder chip.

Aspects of the invention relate to a smart check that includes an OLED display. The smart check may store data associated with multiple purchasing instruments and utilize the OLED display to present sensitive data associated with a user selected purchasing instrument. In response to the selection, the smart check may transmit sensitive data associated with the selected purchasing instrument. The smart check may receive power when it is inserted into a card reader. Inserting the smart check into the card reader may launch an application stored on the smart check. The smart check may store a value. The value may be converted into a currency associated with a location of the smart check.