A device for inscribing identification units, each identification unit including an identification plate or connected single-piece identification plates, each identification plate having an inscription surface, and the inscription surface or a plurality of the inscription surfaces of each identification unit spanning an inscription plane, includes a housing; an inscription device that is arranged in the housing, particularly a laser inscription device; a drop shaft which is arranged in the housing, is accessible via an inlet opening in the housing, is designed for conveying individual identification units to the inscription device, and is delimited by at least one chute for the identification units, the chute being at an incline relative to the horizontal and vertical lines; a support surface which is arranged at the lower end of the drop shaft and spans a support plane in order to support an edge of the identification units; a stopping block that protrudes upwards over the support plane or is arranged over the support plane; and a counter holder that can move towards and away from the stopping block in a feed direction, in order to press identification units that are supported on the support surface against the stopping block, in an inscription position.

A method of programming an RFID tag in an image-forming device is disclosed. The RFID tag is programmed while media is paused in a duplex media path. The RFID tag is programmed using an antenna located between a simplex media path and the duplex media path. Other methods and systems are disclosed.

A server, which is capable of communicating with a printer or printers, each performing radio frequency identification (RFID) communication with a RFID tag, contains: a record unit configured to record, in a memory device, printer identification information for identifying a printer, tag identification information for identifying a RFID tag, and communication parameters with which the printer performs RFID communication, in an associated manner; a first obtaining unit configured to obtain, from a printer, printer identification information and tag identification information read by the printer; an identifying unit configured to identify communication parameters associated with the printer identification information and the tag identification information obtained by the first obtaining unit; and a first transmission unit configured to transmit the communication parameters identified by the identifying unit, to the printer.

A wireless tag processing device includes a wireless tag reader-writer and a processor configured to acquire first and second sets of parameter values, control the reader-writer to transmit a radio wave using each parameter value of the first set and acquire a first intensity of a response wave from a wireless tag, when a highest first intensity satisfies a first condition, determine a parameter value of the first set corresponding to the highest intensity as a parameter value to be used by the reader-writer, and when the highest intensity does not satisfy the condition, control the reader-writer to transmit a radio wave using each parameter value of the second set and acquire a second intensity, and when a highest second intensity satisfies a second condition, determine a parameter value of the second set corresponding to the highest second intensity as the parameter value to be used by the reader-writer.

Components of a system for marking, identification and segregation of plastic waste, including waste of multi-layer and multi-component plastics is disclosed herein. The coating material for marking plastics contains a base of the coating material and fluorescent markers dissolved or dispersed in the base of the coating material. The composition of the coating material or the way it is printed constitutes an arbitrary code, consistent with the adopted marking system. The coating material can be washed off from the surface of marked material with a washing agent. The code contained in the composition of the coating material or in the way it is printed is readable after irradiating with appropriate wavelength. The use of printed graphic or text patterns with at least two coating materials containing different fluorescent markers allows for creation of a practically unlimited number of individual identification codes.

Components of a system for marking, identification and segregation of plastic waste, including waste of multi-layer and multi-component plastics is disclosed herein. The coating material for marking plastics contains a base of the coating material and fluorescent markers dissolved or dispersed in the base of the coating material. The composition of the coating material or the way it is printed constitutes an arbitrary code, consistent with the adopted marking system. The coating material can be washed off from the surface of marked material with a washing agent. The code contained in the composition of the coating material or in the way it is printed is readable after irradiating with appropriate wavelength. The use of printed graphic or text patterns with at least two coating materials containing different fluorescent markers allows for creation of a practically unlimited number of individual identification codes.

An image forming apparatus including a wireless tag communication device to write data to, and read data from, a wireless tag attached to a sheet. An image forming device in the apparatus is configured to form an image on the sheet. A controller in the apparatus is configured to determine whether a writing of data to a wireless tag was successful based on a notification from the wireless tag communication device and generate investigation support information if the writing was not successful and control the image forming device to form an investigation support image corresponding to the investigation support information if the writing was not successful.

An image forming apparatus including a wireless tag communication device to write data to, and read data from, a wireless tag attached to a sheet. An image forming device in the apparatus is configured to form an image on the sheet. A controller in the apparatus is configured to determine whether a writing of data to a wireless tag was successful based on a notification from the wireless tag communication device and generate investigation support information if the writing was not successful and control the image forming device to form an investigation support image corresponding to the investigation support information if the writing was not successful.

A printer that prints each printing medium having an RFID, the printer including: a radio wave strength acquisition unit that acquires radio wave strength from the RFID; and a determine unit that determines whether the RFID is normal or not on the basis of a radio wave strength obtained by the radio wave strength acquisition unit and a threshold.

A tag writing device includes a conveying unit, an antenna, an acquiring unit, a determining unit, a selecting unit, and a deciding unit. The acquiring unit acquires reception intensities about a plurality of wireless tags. The determining unit determines an intermediate position between a start position and an end position as a position where a sum of reception intensities acquired while a mount is conveyed from the start position to the intermediate position and a sum of reception intensities acquired while the mount is conveyed from the intermediate position to the end position are closest. The selecting unit selects, as a target tag, the wireless tag, the intermediate position of which is determined as a position within a prediction range. The deciding unit decides a relative positional relation between the wireless tag and the antenna at a time when writing is performed.