A calibration execution section (calibration module) conveys a label mount by a conveyance pitch set by a conveyance pitch setting section (setting module) based on information including an arrangement state of a plurality of label papers attached to the label mount, and determines a writing position of information to an RFID tag (wireless tag), a wireless output value at the time of writing the information, and a threshold value for discriminating between a response signal from an RFID tag which is a writing target for the wireless output value and a response signal from an RFID tag which is not the writing target. An information writing section (writing module) writes the information at the writing position determined by the calibration execution section according to the wireless output value determined by the calibration execution section.

What is described is an Radio Frequency Identification (RFID) tag configured for communicating with an Radio Frequency Identification (RFID) reader, wherein the RFID tag is configured to receive a query command from the RFID reader, to measure a duration of a TRcal signal comprised by the query command, and to determine an individual Backscatter Link Frequency for communicating with the RFID reader based on the measured duration of the TRcal signal. The invention also refers to an RFID reader and to a corresponding method.

An assembly that includes a plurality of articles, passive or semi-passive RFID tags arranged on the articles, each including at least one unique identifier, in particular recorded in a non-rewritable memory, the tag being configured to transmit, when interrogated, at least the unique identifier of the tag, and a hub including at least one RFID reader, present within the articles, with articles arranged on either side of the hub along at least two directions of an orthonormal reference frame associated with the hub, the latter being arranged in such a way as to be able, by at least one reading antenna, to interrogate at least the RFID tags of articles arranged in said directions, the hub being configured to receive data from the interrogated RFID tags.

A method for facilitating efficient reading of radio frequency identification (RFID) tags may include encoding a sequence of information bits using an error-correcting code to generate encoded information. The sequence of information bits may be associated with an object. The encoded information may be distributed among a plurality of RFID tags such that recovering the sequence of information bits does not require all of the plurality of RFID tags to be read correctly. The plurality of RFID tags may be attached to the object.

A contactless card divider includes a body having a front side and back side and a width therebetween, and a waveguide disposed between the front and back sides. The waveguide is configured to guide a first electromagnetic wave emitted toward the front side through the width of the body to the back side with a first predetermined delay.

Provided is a contactless information medium that achieves reduction in initial failure at the time of manufacture and obtains stable quality. A contactless information medium 1 includes a plurality of substrates 2a to 2d in a stacked state, an electric conductor 4, and an IC chip 5. The electric conductor 4 is integrally provided on each of the substrates 2a to 2d, and has a pre-formed conductive pattern 3. The IC chip 5 is mounted on any one of the substrates 2a to 2d, and is connected to the electric conductor 4. The conductive pattern 3 partially includes spiral patterns 31a to 31d formed in a spiral shape. The spiral patterns 31a to 31d are arranged at different positions among the substrates 2a to 2d.

RFID tags are used for many purpose including tracking. RFID interrogators are used to retrieve information from tags. In many applications, a plurality of RFID interrogators are required. Synchronization between interrogators in the same theater of operation is critical to ensure that their broadcasts do not interfere with each other. In fixed RFID interrogator applications, RFID interrogators can be wired together allowing a channel to synchronize the transmissions of the RFID interrogators. Methods described herein can ensure that synchronization is maintained in the event of the failure of a synchronizing master. Furthermore, additional methods for synchronizing RFID interrogators in wireless applications are described allowing synchronization in the absence of wired connections between interrogators.

The problem to solve is how to extend the operating range of small stackable RFID tags when they are placed in an undesirable orientation. Disclosed is an RFID tag that operates in two modes whereby in a first mode the tag has a short range and in a second mode the tag has a long range. The tag is converted from the first mode short range device into the second mode long range device by placing it close to a coupling device. That is in the second mode the tag becomes a two part RFID tag system (1400) capable of communicating with an interrogator antenna (1407).

Provided is a contactless information medium that achieves reduction in initial failure at the time of manufacture and obtains stable quality. A contactless information medium 1 includes a plurality of substrates 2a to 2d in a stacked state, an electric conductor 4, and an IC chip 5. The electric conductor 4 is integrally provided on each of the substrates 2a to 2d, and has a pre-formed conductive pattern 3. The IC chip 5 is mounted on any one of the substrates 2a to 2d, and is connected to the electric conductor 4. The conductive pattern 3 partially includes spiral patterns 31a to 31d formed in a spiral shape. The spiral patterns 31a to 31d are arranged at different positions among the substrates 2a to 2d.

What is described is an Radio Frequency Identification (RFID) tag configured for communicating with an Radio Frequency Identification (RFID) reader, wherein the RFID tag is configured to receive a query command from the RFID reader, to measure a duration of a TRcal signal comprised by the query command, and to determine an individual Backscatter Link Frequency for communicating with the RFID reader based on the measured duration of the TRcal signal. The invention also refers to an RFID reader and to a corresponding method.