Radio frequency identification shelf antenna with a distributed pattern for localized tag detection
원문보기
IPC분류정보
국가/구분
United States(US) Patent
등록
국제특허분류(IPC7판)
H01Q-011/12
H01Q-011/00
출원번호
US-0508466
(2006-08-23)
등록번호
US-7310070
(2007-12-18)
발명자
/ 주소
Hardman,Gordon E.
Pyne,John W.
Overhultz,Gary L.
출원인 / 주소
Goliath Solutions, LLC
대리인 / 주소
Jones Day
인용정보
피인용 횟수 :
20인용 특허 :
81
초록▼
In accordance with the teachings described herein, an RFID antenna system is provided for detecting RFID tags on a display structure. The antenna system may include an antenna having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least
In accordance with the teachings described herein, an RFID antenna system is provided for detecting RFID tags on a display structure. The antenna system may include an antenna having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least two loops and that has at least two conductor sections crossing each other at an intersection location between two adjacent loops, with a dielectric interposed between the conductor sections at the intersection location. The antenna may be attached to the display structure and may be located at a position on the display structure in relation to a reflective plane that allows the antenna to have a directional longitudinal radiation pattern that radiates into an area of the display structure that is configured to support a displayed item with an attached RFID tag.
대표청구항▼
It is claimed: 1. A radio frequency identification (RFID) antenna system for detecting RFID tags on a display structure, comprising: an antenna having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least two loops and that has at least
It is claimed: 1. A radio frequency identification (RFID) antenna system for detecting RFID tags on a display structure, comprising: an antenna having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least two loops and that has at least two conductor sections crossing each other at an intersection location between two adjacent loops; a dielectric interposed between the conductor sections at the intersection location; and a reflective plane attached to the display structure; the antenna being attached to the display structure and having a location at a position on the display structure in relation to the reflective plane that allows the antenna to have a directional longitudinal radiation pattern that radiates into an area of the display structure that is configured to support a displayed item with an attached RFID tag. 2. The RFID antenna system of claim 1, wherein a first half of the elongated conductor is disposed on a first side of the dielectric and a second half of the elongated conductor is disposed on a second side of the dielectric. 3. The RFID antenna system of claim 2, wherein the antenna further includes at least one junction point connecting the first half of the elongated conductor to the second half of the elongated conductor. 4. The RFID antenna system of claim 1, wherein the configuration of the antenna defines at least four loops with the at least two conductor sections crossing each other at least three intersection locations between adjacent loops, and wherein the dielectric is interposed between the conductor sections at each of the at least three intersection locations. 5. The RFID antenna system of claim 4, wherein the feeding and grounding points are located at one of the at least three intersection locations. 6. The RFID antenna system of claim 5, wherein a first half of the at least four loops define a first radiating arm of the antenna and a second half of the at least four loops define a second radiating arm of the antenna. 7. The RFID antenna system of claim 6, wherein the first and second radiating arms extend in different directions from the feeding and grounding points. 8. The RFID antenna system of claim 7, wherein the first and second radiating arms extend in opposite directions from the feeding and grounding points. 9. The RFID antenna system of claim 1, wherein each of the at least two loops has a length that is equal to one half of an operational wavelength of the antenna. 10. The RFID antenna system of claim 4, wherein a first half of the elongated conductor is disposed on a first side of the dielectric and a second half of the elongated conductor is disposed on a second side of the dielectric. 11. The RFID antenna system of claim 4, wherein the antenna further includes a first junction point and a second junction point and wherein the first half of the elongated conductor is connected to the second half of the elongated conductor at the first and second junction points. 12. The RFID system of claim 6, wherein the feeding point is located on the first half of the elongate conductor and the grounding point is located on the second half of the elongated conductor. 13. The RFID system of claim 7, wherein the feeding and grounding points are located at one of the at least three intersection locations and are substantially equidistant between the first junction point and the second junction point. 14. The RFID antenna system of claim 1, wherein the antenna is attached to the display structure at a distance from the reflective plane, the distance being selected to tune the impendence of the antenna. 15. The RFID antenna system of claim 6, wherein the first and second radiating arms form a collinear antenna. 16. The RFID antenna system of claim 1, wherein the dielectric is a printed circuit board. 17. The RFID antenna system of claim 1, wherein the dielectric is fiberglass. 18. The RFID antenna system of claim 1, wherein the dielectric is a hybrid circuit board. 19. The RFID antenna system of claim 1, wherein the dielectric is a flexible substrate material. 20. The RFID antenna system of claim 1, wherein the dielectric is a ceramic material. 21. The RFID antenna system of claim 1, wherein the display structure is a shelving unit. 22. The RFID antenna system of claim 21, wherein the antenna is one of a plurality of antennas disposed on the shelving unit. 23. The RFID antenna system of claim 22, wherein the reflective plane isolates one or more antennas disposed on a first portion of the shelving unit from one or more antennas disposed on a second portion of the shelving unit. 24. The RFID antenna system of claim 1, wherein the antenna is printed on the dielectric. 25. A radio frequency identification (RFID) system, comprising: a display structure having a plurality of display areas and including a plurality of RFID antennas with an RFID antenna being disposed on the display structure in relation to each display area; each RFID antenna having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least two loops and that has at least two conductor sections crossing at an intersection location between two adjacent loops with a dielectric disposed between the conductor sections at the intersection location; the display structure further including a reflective plane that is attached to the display structure at a position in relation to the plurality of antennas that allows each antenna to have a directional longitudinal radiation pattern that radiates into its respective display area. 26. The RFID system of claim 25, wherein each RFID antenna includes two conductor sections, a first conductor section being disposed on a first side of the dielectric and a second conductor section being disposed on a second side of the dielectric, the first and second conductor sections being joined by at least one junction point. 27. The RFID system of claim 25, wherein each RFID antenna defines first and second radiating arms that extend in different directions from the feeding and grounding points, each radiating arm including at least two loops. 28. The RFID system of claim 25, wherein each of the at least two loops has a length that is equal to one half of an operational wavelength of the RFID antenna. 29. The RFID system of claim 25, further comprising: an RFID reader coupled to the plurality of RFID antennas and configured to process RFID signals received by the plurality of antennas from RFID tags located within the display areas. 30. The RFID system of claim 29, further comprising: a multiplexer coupled between the plurality of RFID antennas and the RFID reader that multiplexes the plurality of RFID signals received by the plurality of RFID antennas. 31. The RFID system of claim 28, wherein the display structure is one of a plurality of display structures. 32. The RFID system of claim 29, further comprising: a central hub configured to receive RFID data from the RFID reader; and a communications link configured to transmit the RFID data from the RFID reader to the central hub. 33. The RFID system of claim 30, wherein the central hub receives RFID data from RFID readers associated with each of the plurality of display structures. 34. The RFID system of claim 30, further comprising: a central database that stored RFID data received by the central hub. 35. The RFID system of claim 29, wherein the plurality of display structures and the central hub are located in a single retail facility. 36. The RFID system of claim 29, wherein at least two of the display structures are located in different retail facilities. 37. The RFID system of claim 35, wherein the central hub is located remotely from the plurality of display structures. 38. The RFID system of claim 25, wherein two or more of the RFID antennas are connected in series. 39. The RFID system of claim 38, wherein the RFID system is configured to use the two or more series connected RFID antennas to determine a location of a displayed item on the display structure. 40. The RFID system of claim 29, wherein the system is configured to use the RFID signals to associate each RFID tag with a particular one of the plurality of antennas in order to determine which one of a plurality of shelves on the display unit each RFID tag is located. 41. A radio frequency identification (RFID) system, comprising: a display structure having a first side and a second side, the first side of the display structure including one or more first display areas and including a first RFID antenna that is disposed on the display structure in relation to the one or more first display areas, the second side of the display structure including one or more second display areas and including a second RFID antenna that is disposed on the display structure in relation to the one or more second display areas, the first and second RFID antennas each having an elongated conductor extending from a feeding point to a grounding point in a configuration that defines at least two loops and that has at least two conductor sections crossing at an intersection location between two adjacent loops with a dielectric disposed between the conductor sections at the intersection location; the display structure further including one or more reflective planes that isolate the first RFID antenna from the second RFID antenna. 42. The RFID system of claim 41, wherein the RFID system is configured to determine if a displayed item is located on the first side of the display structure or the second side of the display structure. 43. The RFID system of claim 41, wherein the RFID system includes a first reflective plane that is attached to the display structure in relation to the first RFID antenna to allow the first RFID antenna to have a radiation pattern that radiates into the one or more first display areas and a second reflective plane that is attached to the display structure in relation to the second RFID antenna to allow the second RFID antenna to have a radiation pattern that radiates into the one or more second display areas.
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