An operation of calibrating the object using a reference reader is performed, the calibration operation including an operation of placing the reference reader at various distances away from the object that correspond to various values of a parameter within the object that is representative of the intensity of the signal received by the object, and, for each distance, an operation of determining an internal phase-shift compensation in the object with respect to a nominal internal phase shift, making it possible to obtain a load modulation amplitude that is higher, in terms of absolute value, than a threshold, and an operation of storing a lookup table of the various values of the parameter and the corresponding internal phase-shift compensations.

A solar-powered remote monitoring tag for beef cattle and other animals typically inhabiting outdoor environments combines animal health and activity monitoring with geolocation information. The tags communicate with a base station using radio communications, which in turn uses satellite internet services to communicate with a remote computing server. The remote computing server provides a user interface, such as a mobile app, that provides geospatially enabled information involving the health, activity, and location of monitored animals, thus providing timely and evidence-based decision support to the end user. The remote monitoring tags may also provide for close range communication using a near field communication transponder.

Disclosed is a tag apparatus for attaching things based on human body communication, including: a tag main body for human body communication configured to be attached to a thing to transmit identification information on a thing to a human body communication receiving device through human body communication during the contact of the human body with the thing; a case configured to protect the tag main body for human body communication; and a thing attachment portion configured to be exposed to an outside of the case to be attached to a particular part of the thing, detect when the human body contacts or approaches the thing, and forms a human body communication channel to output identification information on the thing.

A smart phone comprises an NFC antenna and a signal-send unit that communicates with the NFC antenna. The smart phone further comprises an NFC tag containing identification information. The smart phone is configured so that the signal-send unit transmits identification information to an ECU mounted within a vehicle, allowing remote control of the vehicle. The transmitted signals sent by the smart phone are encrypted by a third party.

A boosted near field communication device includes an electronic circuit, a transceiver circuit, an interface coupling the electronic circuit with a host controller, and a memory containing a first information about an activation characteristic of the electronic circuit. The transceiver circuit is configured to determine a timing requirement of a reading device based on one or more request signals, activate the electronic circuit with energy obtained at least one of from an electromagnetic field generated by the reading device or from a battery on receiving a request signal from the reading device, and ensure that after activating the electronic circuit, the electronic circuit can receive and process a request signal from the reading device corresponding to the determined timing requirement by using the determined timing requirement and the first information about an activation characteristic.

A method of wireless communication between a transponder and a terminal includes a step, implemented by the transponder, of counting a number of error signals transmitted by the terminal.

A near-field communication device includes an oscillating circuit, a rectifying bridge configured to rectify a voltage across the oscillating circuit, and a voltage-controlled oscillator configured to supply a reference frequency. The voltage-controlled oscillator is powered and controlled by a voltage that is a function of an output voltage of the rectifying bridge.

A circuit includes an in-phase/quadrature down converter configured to be coupled to an antenna of a first NFC (near field communication) device. DC cancellation circuitry is coupled at outputs of the converter. Detection circuitry is configured to analyze DC signals output by the DC cancellation circuits to detect the presence of a second NFC device.

A method for communicating on a terminal. The terminal is able to receive a message in a carrier radiowave by using the electromagnetic wave conduction capacities of a first channel, being supported by the body of a user carrying the terminal. The terminal is also able to communicate with a second device over a second wireless channel having a support separate from the body of the user. The method includes the following steps on the terminal: receiving, over the first channel, the first message including at least one item of peering data coming from another device; establishing a communication session over the second channel with the second device, using the item of peering data; and communicating with the second device only over the second radio channel.

An RFID transponder includes a coding and modulation unit that generates a transmission signal by modulating an oscillator signal with an encoded bit signal. During a first and a second time segment, the encoded bit signal assumes a first and a second logic level, respectively. The transmission signal includes a first signal pulse having a first phase within the first time segment and a second signal pulse having a second phase that is shifted with respect to the first phase by a predefined phase difference within the second time segment. The transmission signal is paused for a pause period between the first and the second signal pulse. The pause period is shorter than a mean value of a period of the first time segment and a period of the second time segment.