A near field magnetically coupled contactless device includes a foldable substrate in the form of a tape; two metal surfaces located facing each other on opposite sides of the substrate in a region of interest of the substrate, configured such that a piercing of the region of interest causes a permanent short circuit between the two metal surfaces; and a circuit configured to detect a short circuit between the two metal surfaces.

An NFC tag includes a foldable substrate in the form of a tape; an antenna located at a first end of the tape; a capacitor connected to the antenna, located at the first end of the tape; an impedance, in particular a capacitor, located at a second end of the tape; and conductive tracks running along the tape to connect the impedance to the antenna.

A near field magnetically coupled anti-counterfeiting tag comprises a control microcircuit configured to implement a basic function and a cryptographic function; a sacrificial conductive track located across a sacrificial area of the tag; and a circuit for detecting continuity of the sacrificial track, cooperating with the microcircuit to implement the basic function without implementing the cryptographic function when the sacrificial track is broken.

A near field magnetically coupled contactless device, comprises a foldable substrate in the form of a tape; an antenna circuit tuned to a nominal frequency, including an antenna and a capacitor connected to the antenna; a sacrificial impedance connected to the antenna circuit to contribute to the tuning of the antenna circuit to the nominal frequency; and a sacrificial structure comprising a conductive track connecting the sacrificial impedance to the antenna circuit, configured in meanders occupying a region of interest of the substrate such that a piercing of the region of interest severs the conductive track.

An anti-tamper passive Radio Frequency Identification (RFID) transponder for attachment to a surface that is at least partially translucent includes: an RFID inlay, including an RFID Integrated Circuit (IC) chip connecting to an RFID antenna; and a first opaque label on a first side of the RFID inlay. When attached to the surface, the first opaque label is between the RFID inlay and the surface, and the first opaque label is viewable through the surface while preventing view of the RFID inlay through the surface. The first opaque label is with pre-cut lines. The passive RFID transponder and the pre-cut lines are configured and arranged such that when a removal of the passive RFID transponder from the surface is attempted, after being attached to the surface, the RFID antenna is damaged and the RFID inlay is rendered inoperable.

A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.

Techniques that enable a device to advertise its mode of operation using an RFID tag attached to the device. Techniques are provided for programmatically controlling an RFID tag. An RFID tag attached to a device is programmatically enabled or disabled depending upon the mode(s) of operation of the device. The RFID tag is able to transmit a signal when enabled and not able to transmit a signal when disabled. Using such a controllable RFID tag, a device can efficiently indicate or advertise its mode of operation to an RFID reader or sensor.

A radio frequency identification (RFID) transponder may include a substrate and a device. The substrate may be in communication with a controller and an antenna, and the antenna is arranged to receive radio frequency signals. A first side surface of the substrate may include a capacitor. The device may be detachably coupled with the substrate via a conductive member positioned between the structure and the capacitor of the substrate, and the conductive member may be within a desired proximity of the capacitor. The structure may be attached to an attachment surface so that an attachment strength between the structure and the attachment surface may be greater than a force required to decouple the structure from the substrate. When the structure is decoupled from the substrate, the conductive member separates from the capacitor, disabling the transponder.

Chip cards that are protected from unauthorized access to information and instructions stored in the chip card's chip by unauthorized persons using illicit devices that emulate chip readers to interrogate the chips in chip cards and obtain or download confidential data stored in the chips. The chip cards are disabled when not ready to be used, such that the chips cannot be accessed by illicit devices, thus protecting the chip card owner and/or issuer from potential losses.

An RFID tag comprising a lower housing, an upper housing and an antenna unit. The lower housing is configured to be attached to the an object. The upper housing is placed on the lower housing and comprises a peripheral portion laterally surrounding the lower housing and configured to be attached to the object. The antenna unit is positioned between the lower housing and the upper housing. A first portion of the antenna unit is attached to the lower housing and a second portion of the antenna unit is attached to the upper housing. When the distance between the upper housing and the lower housing changes in case someone attempts to remove the RFID tag from the object, the at least one first portion of the antenna unit remains attached to the lower housing and the at least one second portion of the antenna unit remains attached to the upper housing.