Various switchable RFID devices are disclosed. These switchable RFID devices may include one or more RFID tags and one or more switches. Some of these one or more switches are optionally wireless. In various embodiments, the switchable RFID devices include cellular phones, security devices, identity devices, financial devices, remote controls, and the like. In some embodiments, switches are configured to enter data into a switchable RFID device, for example to select a financial account. Switches are optionally configured to program the RFID device or to operate as sensors.

A stored value card and carrier assembly including a carrier formed from one or more panels, at least one stored value card sandwiched and sealed within the carrier, and a label removably adhered or coupled to the card and adhered or coupled to an interior of the carrier such that the bond to the carrier or card is greater than the bond to the other of the card or carrier. The label includes at least a portion of activation indicia, such as a barcode, either printed or otherwise applied thereon. Upon removal of the card from the carrier, the label remains coupled to one of the carrier or the card, whichever bond is greater, rending any remaining activation indicia on the other of the stored value card or carrier unreadable.

The present invention concerns a smart tag for attachment to an object. The smart tag comprises an electronic system for contactless communication, a support to which at least part of the electronic system is fixed and at least one destruction component means configured to act on at least one element of the electronic system, when the smart tag is removed from said object, to demolish said at least one element of the electronic system. In at least one embodiment, the destruction component may be a demolisher movably mounted to pass through said support from a first position on one side of the support to a second position on the other side of the support.

An integrated circuit includes a circuit module storing sensitive data. An electrically conductive body at a floating potential is located in the integrated circuit and holds an initial amount of electric charge. In response to an attack attempting to access the sensitive data, electric charge is collected on the electrically conductive body. A protection circuit is configured to ground an output of the circuit module, and thus preclude access to the sensitive data, in response to collected amount of electric charge on the electrically conductive body differing from the initial amount and exceeding a threshold.

A labeling set for marking a pharmaceutical vessel including a body having a peripheral surface and a removable closure includes: a three-dimensional molded attachment, a label for sticking on the outer vessel circumference to be marked, and an RFID transponder for electronic identification of the vessel and/or contents. The attachment is mountable and/or positionable on the vessel in a predefined relative position and has a circumferential wall with an outer circumferential surface which is intended as an additional labelable and/or electronically identifiable outer wall and/or outer surface and whose radius, outer circumference and/or wall course is selected in accordance with the radius, outer circumference and/or wall course of the vessel circumferential surface. The label and/or the RFID transponder sticks over and/or covers both a circumferential surface, formed in accordance with the vessel body outer circumference, and the attachment circumferential surface at least in regions and/or to secure the vessel attachment to the vessel.

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.

Embodiments are described herein for systems and methods for authenticating tokenized and/or dynamic physical checks, and authorizing transfers of funds in response to the authentication. In particular, in certain embodiments, a method includes identifying, using at least one processor, a dynamic authentication code of a physical check. The method also includes automatically authenticating, using the at least one processor, the physical check based at least in part on the identified dynamic authentication code. The method further includes automatically authorizing, using the at least one processor, a transfer of funds in response to the authentication of the physical check.

Methods, systems, and computer program products for creating a monitoring network are described. A server associates a master wireless node with a package in a first set of associated packages. The server and the master wireless node communicate with one another over first type of wireless communications interface. The server also associates a peripheral wireless node with another package in the set and with the master node. The peripheral wireless node and the master wireless node communicate with one another over a second type of wireless communications interface. The peripheral node includes a sensor operative to generate sensor data by sensing an environmental condition. The master wireless node processes the sensor data to generate one or more package-level statistics of the processed sensor data.

An electronic device, such as a dynamic transaction card having a chip, an applet, and a cryptographic coprocessor performs secure firmware and/or software updates, and performs firmware and/or software validation for firmware and/or software that is stored on the electronic device. Validation may compare a calculated checksum with a checksum stored in the device. If a checksum calculated for a firmware and/or a software application matches a stored checksum, the transaction card may operate normally. If a checksum calculated for a firmware and/or a software application does not match the stored checksum, the transaction card may freeze all capabilities, erase the memory of the transaction card, display data indicative of fraud, and/or the like.

Methods, systems, and computer program products for creating a monitoring network are described. A server associates a master wireless node with a package in a first set of associated packages. The server and the master wireless node communicate with one another over first type of wireless communications interface. The server also associates a peripheral wireless node with another package in the set and with the master node. The peripheral wireless node and the master wireless node communicate with one another over a second type of wireless communications interface. The peripheral node includes a sensor operative to generate sensor data by sensing an environmental condition. The master wireless node processes the sensor data to generate one or more package-level statistics of the processed sensor data.