Abstract: A merchandise attachment incorporating an RFID transponder may be described herein. The merchandise attachment may include a pliable, elongated panel member adapted for wrapping around the neck of a bottle or similar container. The panel member may be formed from a unitary blank having score lines that divide the blank into a plurality of panel sections. The panel member, when folded along the score lines with its end sections in overlapping relationship, may form a packaging sleeve in the shape of a tapered rectangular prism. The exterior surface of the panel member may be provided with informational material regarding the merchandise, such as branding, promotional offers, and the like. The RFID transponder, affixed to an interior surface of the panel member, may be adapted for wirelessly communicating information in radio-frequency signals.

Abstract: 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.

Abstract: An apparatus and method of combining more than one RFID technology to give operational benefits and new applications to RFID tags is disclosed. The RFID tags comprise UHF and/or HF tag functions which are either located in a single chip or located separately in two chips with a connection between the chips allowing the exchange of information. These RFID tags may then be used in a retail environment to assist in marketing, inventory control, and/or EAS operations.

Abstract: An agnostic in-line verification system and method produce finished RFID-enabled tags including labels, tags, tickets, stickers and the like. Includes is an RFID-verification base unit with an RFID-verifier that checks for verification of programmed data of the RFID-enabled tags. A feed module is positioned upstream of the RFID-verification base to receive a flow of RFID-enabled tags to be finished through RFID verification, and a collector module is downstream of the RFID-verification base unit and that receives RFID-verified tags from the RFID-verification base unit. In systems that feed a continuous stream of uncut tags, a cutter module is positioned between the verification base unit and the collector module.

Abstract: An apparatus and method of improving the stability and repeatability of the laser cutting of an RFID antenna is disclosed. The present invention provides direct feedback from an optical inspection of the cutting process to the control system to determine the shape of the RFID antennas that are being cut and compare the same to the desired RFID antenna shape or pattern. When appropriate, the present invention enables a user to employ both short term and long term feedback data to make modifications to the laser cutting process to improve the same and reduce waste.

Abstract: A combined EAS and RFID circuit includes an HF coil antenna, a UHF tuning loop, and an RFID chip coupled to a strap that includes a first coupling area and a second coupling area. The coil ends of the HF coil antenna are configured to capacitively and/or conductively couple to one or both of the first coupling area or second coupling area of the strap. The HF coil antenna can include a gap between turns for non-interfering placement of the UHF tuning loop. The EAS circuit can be deactivating upon application of a field at the resonant frequency of sufficient intensity to cause the breakdown voltage to be exceeded between a coil end and coupling area. The threshold breakdown voltage between a coil end and a coupling area can be reduced by laser ablation treatment of a conductive surface of one or both of the coil end or coupling area.

Abstract: Improved RFID devices and manufacturing methods that utilize more efficient RFID designs, result in less manufacturing material waste and increased recycling opportunities, all without sacrificing RFID device performance, are disclosed herein. Some exemplary embodiments of the improved RFID device may make use of a thinner foil, a hollowed-out foil, a “no-strip” design, or a tessellated design that may reduce material usage. Other exemplary embodiments may use a lower-impact and/or biodegradable adhesive so as to improve aluminum recycling and lessen risks to the environment.

Abstract: An anti-tamper device combining a RFID component and an article surveillance or security component with a visual indicator. The article surveillance or security component is operatively coupled to a display so that an interruption of the RFID component is visibly indicated by the display. The visual indicator moves between a first state indicating a lack of tampering, and a second state indicating tampering without the need for a battery or external power source.

Abstract: A radio frequency identification (RFID) apparatus includes a housing, an RFID reader, and one or more RFID antennas disposed in the housing. The housing includes a first opening, a second opening, and a tunnel between the first and second openings. The housing is configured to be disposed over a track configured to transport a garment on hanger through the tunnel. The RFID antennas are configured to generate a first RFID signal substantially in the tunnel to interrogate an RFID tag associated with a garment on hanger as it transits through the tunnel. The RFID reader receives a second RFID signal transmitted by the RFID tag in response to receiving the first RFID signal. The RFID apparatus can include a segment of the track. The track can include a trolley configured to secure one or more garments on hangers. The trolley can include an RFID tag.

Abstract: A method of pairing a handheld printer/scanner device with a barcode printer acting as the host is disclosed. The pairing will further enhance the functionality of the host barcode printer. Specifically, the pairing process is initiated when a printer process that requires a handheld printer/scanner device is initiated. The method enables a handheld printer/scanner device to print to a host barcode printer, and also enables the host barcode printer to receive a barcode scan of the case label of received food items and retain information from the barcode scan for future printing of food freshness labels.

Abstract: A system and method which provides RFID enabling for cryo-vials and other cryogenic items is disclosed. The system and method is a two part method wherein first each vial is individually RFID tagged and then a plurality of tagged vials are secured into a cane. The second part comprises creating an RFID tag and attaching the tag to the top of the cane of vials. The individual RFID tags on the vials are then associated with the RFID tag on the cane.

Abstract: Durable fabric RFID labels are provided for mounting on garments, fabrics and other fabric-containing items, the mounting and durability being before, during or after manufacturing and processing of the items. These labels are robust enough to withstand processing during manufacturing, while being capable of remaining on the item during inventory handling, merchandising and consumer use, including washing and drying. The durable labels include an RFID inlay, a face sheet overlying a first face of the RFID inlay, and a functional adhesive, such as a hot-melt adhesive, overlying a second face of the RFID inlay. The face sheet can be of printable material or have indicia or be a printed face sheet. The functional adhesive can be of a moisture-resistive type. The RFID inlay can be encased within a pocket of polymeric material. A polymeric sheet reinforcement layer can be adhered to and cover all or a portion of the RFID inlay.