Encoding a RFID record member on a moving web
First Claim
Patent Images
1. A RFID printer, comprising:
- a RFID reader/writer;
an index sensor configured to detect a leading edge of a RFID record member, the RFID record member including one or more RFID transponders;
an antenna configured to emit a RF field and coupled to and cooperating with the RFID reader/writer to read and/or write to a RFID transponder;
a printing system having a print head and a drive mechanism to drive a web of RFID record members past the print head for printing data thereon;
a memory; and
a processor, the processor coupled to the memory, the index sensor, the printing system, and to the RFID reader/writer and operable to encode and print on the RFID record member as the web continues in motion, the processor configured to perform the steps of;
determining if the RF field is capable of encoding the RFID transponder at a selected continuous web speed, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field, and determining a RF field length based on the counted number of steps wherein each step represents a physical distance;
if the selected continuous web speed is too high to encode the RFID transponder, determining a continuous lower web speed at which to encode the RFID transponder; and
adjusting the web speed to the determined continuous web speed to encode the RFID transponder.
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Accused Products
Abstract
A system and method for encoding and printing RFID record members with a continuous moving web is provided. In particular, a printer such as a RFID printer is capable of encoding an inlay or multiple inlays within a record member while the web is continuously moving. While a record member is being encoded on a moving web, the record member may be printed upon when a leading edge of a record member reaches the print position.
38 Citations
30 Claims
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1. A RFID printer, comprising:
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a RFID reader/writer; an index sensor configured to detect a leading edge of a RFID record member, the RFID record member including one or more RFID transponders; an antenna configured to emit a RF field and coupled to and cooperating with the RFID reader/writer to read and/or write to a RFID transponder; a printing system having a print head and a drive mechanism to drive a web of RFID record members past the print head for printing data thereon; a memory; and a processor, the processor coupled to the memory, the index sensor, the printing system, and to the RFID reader/writer and operable to encode and print on the RFID record member as the web continues in motion, the processor configured to perform the steps of; determining if the RF field is capable of encoding the RFID transponder at a selected continuous web speed, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field, and determining a RF field length based on the counted number of steps wherein each step represents a physical distance; if the selected continuous web speed is too high to encode the RFID transponder, determining a continuous lower web speed at which to encode the RFID transponder; and adjusting the web speed to the determined continuous web speed to encode the RFID transponder. - View Dependent Claims (2, 24, 27, 28, 29, 30)
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3. A method of encoding RFID transponders on a continuous moving web, the method comprising the steps of:
determining if a RF field is capable of encoding the RFID transponders at a selected continuous web speed during a calibration sequence wherein the calibration sequence comprises the steps of initiating web motion, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field, and determining a RF field length based on the counted number of steps wherein a step represents a physical distance; if the selected continuous web speed is too high to encode the RFID transponders, determining a continuous lower web speed at which to encode the RFID transponders; adjusting the web speed to the determined continuous web speed to encode the RFID transponders; and printing and encoding the web having the RFID transponder nearly simultaneously. - View Dependent Claims (4, 5, 6, 12)
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7. A non-transitory computer-readable medium containing computer-executable instructions for encoding a RFID transponder on a continuous moving web, the steps comprising:
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determining if a RF field is capable of encoding the RFID transponder at a selected continuous web speed during a calibration sequence wherein the calibration sequence comprises the steps of initiating web motion, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field and determining a RF field length based on the counted number of steps wherein a step represents a physical distance; if the selected continuous web speed is too high to encode the RFID transponder, determining a continuous lower web speed at which to encode the RFID transponder; and adjusting the web speed to the determined continuous web speed to encode the RFID transponder nearly simultaneously. - View Dependent Claims (8, 9, 10, 11)
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13. A printer, comprising:
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a print head capable of printing on a longitudinally extending web of record members having RFID transponders disposed at spaced locations along the web; a RFID reader/writer having an antenna disposed upstream of the print head, the antenna being capable of radiating an RF field to the transponders; a motor-driven roller capable of advancing the web downstream continuously past the antenna to the print head and beyond; a speed regulator responsive to the processor and capable of controlling the speed of advance of the web based on a length of the field and locations of adjacent RFID transponders. and a processor, the processor coupled to the memory, the index sensor, the printing system, and to the RFID reader/writer and operable to encode and print on the RFID record member as the web continues in motion, the processor configured to perform the steps of; determining if the RF field is capable of encoding the RFID transponder at a selected continuous web speed during a calibration sequence wherein the calibration sequence comprises the steps of initiating web motion, detecting the RFID transponder in a generated RF field, counting a number of steps the transponder remains in the generated RF field, and determining a RF field length based on the counted number of steps wherein a step represents a physical distance; if the selected continuous web speed is too high to encode the RFID transponder, determining a continuous lower web speed at which to encode the RFID transponder; and adjusting the web speed to the determined continuous web speed to encode the RFID transponder. - View Dependent Claims (14, 15, 25)
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16. A method of printing, comprising:
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providing a RFID printer having a print head, a RFID reader/writer having an antenna disposed upstream of the printer head and capable of emitting an RF field, a roller to advance a longitudinally extending web of spaced RFID record members past the antenna to the printer head and beyond, and a processor capable of controlling the print head, the RFID reader/writer and the speed of advance of the web; calibrating the speed of advance of the web based on the spacing of the transponders and the length of the RF field wherein the calibrating comprises the steps of initiating web motion, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field and determining a RF field length based on the counted number of steps wherein a step represents a physical distance, and advancing the web continuously in accordance with the determined web speed while the print head prints on a record member and the RFID recorder/writer encodes an RFID transponder nearly simultaneously. - View Dependent Claims (17, 18, 19, 20, 21, 26)
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22. A method of printing on relatively short record members, comprising:
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providing a print head for printing at a printing position on a longitudinally extending web of RFID record members having RFID transponders at spaced locations along its length and an antenna disposed upstream of the print head and capable of emitting an RF field to encode the transponders, wherein each record member has a length defined by and between a leading edge and a trailing edge and at least one transponder is located between the leading and trailing edges of the record member, wherein the lengths of the record members are less than the distance between the downstream edge of the RF field and the printing position; determining if a RF field is capable of encoding the RFID transponder at a selected continuous web speed during a calibration sequence wherein the calibration sequence comprises the steps of initiating web motion, detecting the RFID transponder in a generated RF field, counting a number of steps the RFID transponder remains in the generated RF field and determining a RF field length based on the counted number of steps wherein a step represents a physical distance encoding the transponder on a first record member while printing nearly simultaneously on a second record member, and printing at any selected place on the first encoded record member between its leading and trailing edges. - View Dependent Claims (23)
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Specification