Abstract: A printer which is configured to automatically transmit data, such as critical and non-critical printer data, and route that data through at least one of a plurality of communication channels and services, such as via e-mail or mobile wireless equipment (e.g. an Internet-ready pager, a Personal Communications Service (PCS) phone or a wireless Personal Digital Assistant (PDA)). Preferably, the printer is configured such that it can be programmed and controlled from a remote location. Preferably, the printer is configured such that new label formats can be added from a remote location, and label formats stored in the printer can be viewed and modified from a remote location. Preferably, the printer is also configured such that barcode rendering algorithms can be downloaded to the printer from a remote location, and such that printer settings can be viewed and modified from a remote location, and thereafter can be downloaded to the printer and/or to other printers in a network to facilitate cloning.

Abstract: Methods and apparatus relating to a radio frequency identification device (RFID) with wide-area connectivity are provided. In an example, a real-time location (RTL) monitoring device is provided. The RTL monitoring device includes a first radio-frequency identification (RFID) tag and an RFID interrogator configured to interrogate the first RFID tag and a second RFID tag. A long-range wireless transceiver is coupled to the RFID interrogator, and configured to communicate RFID data. The first RFID tag, the RFID interrogator, and the long-range wireless transceiver can be collocated in an enclosure separate from the second RFID tag. The RTL monitoring device is configured to aggregate a plurality of responses from the first and second RFID tags, and to communicate the aggregated RFID data with a second device, such as a satellite, a base station, and/or an eNodeB device.

Abstract: Methods and apparatus relating to a radio frequency identification device (RFID) with wide-area connectivity are provided. In an example, a real-time location (RTL) monitoring device is provided. The RTL monitoring device includes a first radio-frequency identification (RFID) tag and an RFID interrogator configured to interrogate the first RFID tag and a second RFID tag. A long-range wireless transceiver is coupled to the RFID interrogator, and configured to communicate RFID data. The first RFID tag, the RFID interrogator, and the long-range wireless transceiver can be collocated in an enclosure separate from the second RFID tag. The RTL monitoring device is configured to aggregate a plurality of responses from the first and second RFID tags, and to communicate the aggregated RFID data with a second device, such as a satellite, a base station, and/or an eNodeB device.

Abstract: A printer which is configured to automatically transmit data, such as critical and non-critical printer data, and route that data through at least one of a plurality of communication channels and services, such as via e-mail or mobile wireless equipment (e.g. an Internet-ready pager, a Personal Communications Service (PCS) phone or a wireless Personal Digital Assistant (PDA)). Preferably, the printer is configured such that it can be programmed and controlled from a remote location. Preferably, the printer is configured such that new label formats can be added from a remote location, and label formats stored in the printer can be viewed and modified from a remote location. Preferably, the printer is also configured such that barcode rendering algorithms can be downloaded to the printer from a remote location, and such that printer settings can be viewed and modified from a remote location, and thereafter can be downloaded to the printer and/or to other printers in a network to facilitate cloning.

Abstract: A printer is configured such that it can automatically order labels, tags or the like directly from a label, tag or the like production facility over a TCP/IP connection using such protocols as e-mail, hyper-text-transfer-protocol (i.e., web page), and TCP datagrams, and have the ordered labels, tags or the like delivered directly to the physical location of the printer.

Abstract: A printing apparatus, having a housing in which a thermal transfer printhead station and an ink jet printhead station are mounted, is used for printing indica on a medium, such as tickets, tags and the like. The thermal transfer printhead station is used for printing a monochrome colored indicia on the print medium and the ink jet printhead station is used for printing a single monochrome colored indicia or a plurality of monochrome colored indicia on the print medium. A decoupling station is mounted between the thermal transfer printhead station and the ink jet printhead station for accumulating print medium therein. A sensor is associated with the decoupling station for sensing the amount of print medium accumulated therein. In use, the print medium is passed through the thermal transfer printhead station and a monochrome colored indicia is printed thereon.

Abstract: A color barcode symbology is disclosed that can be accurately decoded despite severe distortions, misreads or altered symbols. This disclosed barcode is a color transition barcode having linear growth properties designed to resist the single or combined effects of: scaling distortions, perspective distortions, shear distortions, and wave distortions of both the uniform and non-uniform type distributed across the barcode's vertical or horizontal axis. This color barcode symbology is also resistant to missing symbols and altered symbols while offering, high security, error checking, and double error correcting capability.

Abstract: A thermal demand printer for printing on media is a novel system which includes a case structure including a hinged cover panel, easily removable guide structures and media hanger, and a single central support wall to which the various components are attached. The printer includes a power supply circuit for receiving power from an external source and conditioning it for operation of the printer. An input device is provided for receiving command signals related to the operation of the printer. A control circuit for processing the command signals and generating corresponding control signals for controlling the operation of the printer and a printhead assembly for processing the control signals and generating corresponding control signals for controlling the operation of the printer are mounted in the case structure and coupled to the input device and the power supply circuit. The printhead assembly includes a printhead support structure which controls the printhead.

Abstract: A demand printer for printing on media includes a ribbon take-up spindle for accumulating spent printing ribbon and facilitating removal of the spent ribbon from the spindle. The spindle has a surface with a protrusion bore formed therethrough. At least one protruding segment extends through the protrusion bore. The protruding segment controllably projects away from the spindle surface for maintaining a space between a portion of the spindle surface and the spent ribbon accumulated on the spindle. A biasing structure is operatively associated with the spindle and the protruding segment for controllably biasedly directing the protruding segment through the protrusion bore in the spindle. A retracting structure is provided for controllably compressing and expanding the biasing means to controllably move the protruding segment through the protrusion bore.

Abstract: A thermal transfer printer includes an arrangement for continuously and automatically varying the rate of advance of the thermal transfer ribbon during printing, the rate of advance being correlated with the nature of the image being printed, and the variable advance rate being provided by a driven friction feed roller and a pair of ribbon guides which cooperate with the friction feed roller and are so positioned that the transfer ribbon is held tightly against the friction feed roller, contacting the circumference of the friction feed roller over more than 90.degree. its circumference and preferably at least 180.degree. of its circumference.

Abstract: A thermal transfer printer includes an arrangement for continuously and automatically varying the rate of advance of the thermal transfer ribbon during printing, the rate of advance being correlated with the nature of the image being printed, and the variable advance rate being provided by a driven friction feed roller and a pair of ribbon guides which cooperate with the friction feed roller and are so positioned that the transfer ribbon is held tightly against the friction feed roller, contacting the circumference of the friction feed roller over more than 90.degree. its circumference and preferably at least 180.degree. of its circumference.