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.

A thermal transfer print ribbon having radiation curable ink thereon is used to print on a surface of a plastic card. The use of radiation curable thermal transfer printing to print on the card surface increases the durability of the printing compared to regular (i.e. non-radiation cured) thermal transfer printing once the radiation curable ink is cured. As a result, a protective laminate or coating need not be applied to the card surface to protect the printing.

A thermal transfer print ribbon having radiation curable ink thereon is used to print on a surface of a plastic card. The use of radiation curable thermal transfer printing to print on the card surface increases the durability of the printing compared to regular (i.e. non-radiation cured) thermal transfer printing once the radiation curable ink is cured. As a result, a protective laminate or coating need not be applied to the card surface to protect the printing.

The present disclosure provides a system and method for generating RFID labels using a non-RFID label printer and an easy-to-attach RFID encoder. The RFID encoder comprises an RFID controller coupled to a network, one or more antennas, a label detector, and an RFID reader. The RFID encoder can be packed into two or more encoder units that are clipped onto the front and back of the non-RFID label printer. The RFID controller receives a packet of reader settings and a packet (array) of encode data via the one or more antennas. As unprinted labels pass through the non-RFID label printer and the RFID encoder, the label detector senses tags of the unprinted labels, and triggers the RFID controller and the non-RFID label printer to encode RFIDs onto the tags.

In a printing device, a supply portion is configured to convey a tape in its longitudinal direction. The tape includes: a plurality of labels arranged continuously in the longitudinal direction; and a plurality of storage elements provided on respective ones of the plurality of labels. A first storage element is provided on a first label and configured to store first authentication data. The second storage element is provided on a second label and configured to store second authentication data. A printing portion is configured to print on the plurality of labels. A controller is configured to perform: reading the first authentication data from the first storage element and the second authentication data from the second storage element by a reading portion; and determining whether the first authentication data is correlated to the second authentication data to meet an authentication condition.

A data storage device includes a reader/writer for communicating wirelessly with an radio-frequency (RF) tag and a memory storing parameters in association with characteristic information of the RF tag. The parameters are used in communicating wirelessly with the RF tag. A sensor is configured to obtain characteristic information of the RF tag. A processor acquires the characteristic information of the RF tag through the sensor and a parameter corresponding to the acquired characteristic information from the memory. The processor then communicates wirelessly with the RF tag through the reader/writer according to the acquired parameter.

A high speed tabletop and industrial printer is disclosed with integrated high speed RFID encoding and verification at the same time. The industrial printer simultaneously prints on and electronically encodes/verifies RFID labels, tags, and/or stickers attached to a continuous web. The industrial printer comprises a lighted sensor array for indexing the printing to the RFID tags; and a cutter powered from the industrial printer for cutting the web that the RFID tags are disposed on. The industrial printer comprises two RFID reader/writers that are individually controlled. Specifically, one of the RFID reader/writers comprises the ability to electronically encode the RFID tags while the web is moving; and the second RFID reader/writer uses an additional RFID module and antenna on the printer for verifying the data encoded to the RFID tags.

A high speed tabletop and industrial printer is disclosed with integrated high speed RFID encoding and verification at the same time. The industrial printer simultaneously prints on and electronically encodes/verifies RFID labels, tags, and/or stickers attached to a continuous web. The industrial printer comprises a lighted sensor array for indexing the printing to the RFID tags; and a cutter powered from the industrial printer for cutting the web that the RFID tags are disposed on. The industrial printer comprises two RFID reader/writers that are individually controlled. Specifically, one of the RFID reader/writers comprises the ability to electronically encode the RFID tags while the web is moving; and the second RFID reader/writer uses an additional RFID module and antenna on the printer for verifying the data encoded to the RFID tags.

An automated storage unit publishing system may include a recording device for recording information on a storage unit memory chip; a bin plate with a storage unit bin and a casing bin; an assembling mechanism movably attached to the bin plate, the assembling deck comprising a shuttle for removing a selected sized casing from the casing bin and a recorded flash memory chip from the chip bin and assembling the two into a single unit using pressure; a printing device for printing marks, indications or decoration on the casing, and a gripping device for placing the finished unit in an output mechanism.

A high speed tabletop and industrial printer is disclosed with integrated high speed RFID encoding and verification at the same time. The industrial printer simultaneously prints on and electronically encodes/verifies RFID labels, tags, and/or stickers attached to a continuous web. The industrial printer comprises a lighted sensor array for indexing the printing to the RFID tags; and a cutter powered from the industrial printer for cutting the web that the RFID tags are disposed on. The industrial printer comprises two RFID reader/writers that are individually controlled. Specifically, one of the RFID reader/writers comprises the ability to electronically encode the RFID tags while the web is moving; and the second RFID reader/writer uses an additional RFID module and antenna on the printer for verifying the data encoded to the RFID tags.