Spaced apart extended range RFID tag assembly

US 9,286,563 B2
Filed: 07/07/2015
Issued: 03/15/2016
Est. Priority Date: 01/29/2010
Status: Active Grant

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1. A radio frequency identification (RFID) assembly having a radio frequency energy and a wavelength of a predetermined operating frequency in the UHF band, the RFID assembly comprising:

an RFID tag having a mounting substrate with an exposed first planar surface and an opposing second planar surface, at least one of which is adapted for selective attachment to a surface of a carrier, said RFID tag having a passive RFID semiconductor chip having a predetermined operating frequency with an antenna interface mounted on the second planar surface, a conductor electrically coupled to the antenna interface of the RFID semiconductor chip, and an antenna electrically coupled to the conductor and having a two sided planar antenna with a first side oriented away from an operating surface of a body and a second side opposing the first side and oriented towards the operating surface of the body; and

a spacer composed of a foam material that is non-conducting and non-absorbing of a substantial amount of energy at the predetermined operating frequency, said spacer is attached to the at least one of the first and second planar surfaces of the mounting substrate and is positioned for placement between the operating surface of the body and the RFID tag for positioning at a minimum spaced apart distance from the operating surface of the body during operation of the RFID tag, the spacer composed of non-conducting material having a predetermined thickness of between about 0.125 inches and about 0.5 inches and that is non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency transmitted by a remotely positioned antenna of a base station radio transceiver,wherein the RFID tag is configured to receive at the first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy as transmitted from the antenna of the base station radio transceiver and receives at the second side of the two-sided planar antenna a second portion of the radio frequency energy as indirect energy as transmitted from the antenna of the base station radio transceiver responsive to the absorbing of the substantial amount of radio frequency energy by the body, said second portion of the radio frequency energy being received at the predetermined operating frequency;

wherein the RFID semiconductor chip processes the received first and second portions of the radio frequency energy and generates a reply radio frequency energy at a predetermined reply operating frequency in response to the receiving and processing the first and second received radio frequency energy portions, radiates the generated reply radio frequency energy from at least one of the first side and the second side of the two-sided planar antenna.

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Abstract

An assembly and method of manufacture of a radio frequency identification (RFID) assembly having a passive RFID semiconductor chip and a two sided planar antenna and a spacer composed of a foam material that is non-absorbing of a substantial amount of energy at the predetermined operating frequency, the spacer being composed of non-conducting material having a predetermined thickness of between about 0.125 inches and about 0.5 inches and that is non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency wherein the RFID tag assembly receives at a first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy and receives at a second side of the planar antenna a second portion of the radio frequency energy as indirect energy responsive to the absorbing by the absorbing material body.

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17 Claims

1. A radio frequency identification (RFID) assembly having a radio frequency energy and a wavelength of a predetermined operating frequency in the UHF band, the RFID assembly comprising:
- an RFID tag having a mounting substrate with an exposed first planar surface and an opposing second planar surface, at least one of which is adapted for selective attachment to a surface of a carrier, said RFID tag having a passive RFID semiconductor chip having a predetermined operating frequency with an antenna interface mounted on the second planar surface, a conductor electrically coupled to the antenna interface of the RFID semiconductor chip, and an antenna electrically coupled to the conductor and having a two sided planar antenna with a first side oriented away from an operating surface of a body and a second side opposing the first side and oriented towards the operating surface of the body; and
  
  a spacer composed of a foam material that is non-conducting and non-absorbing of a substantial amount of energy at the predetermined operating frequency, said spacer is attached to the at least one of the first and second planar surfaces of the mounting substrate and is positioned for placement between the operating surface of the body and the RFID tag for positioning at a minimum spaced apart distance from the operating surface of the body during operation of the RFID tag, the spacer composed of non-conducting material having a predetermined thickness of between about 0.125 inches and about 0.5 inches and that is non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency transmitted by a remotely positioned antenna of a base station radio transceiver,wherein the RFID tag is configured to receive at the first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy as transmitted from the antenna of the base station radio transceiver and receives at the second side of the two-sided planar antenna a second portion of the radio frequency energy as indirect energy as transmitted from the antenna of the base station radio transceiver responsive to the absorbing of the substantial amount of radio frequency energy by the body, said second portion of the radio frequency energy being received at the predetermined operating frequency;
  
  wherein the RFID semiconductor chip processes the received first and second portions of the radio frequency energy and generates a reply radio frequency energy at a predetermined reply operating frequency in response to the receiving and processing the first and second received radio frequency energy portions, radiates the generated reply radio frequency energy from at least one of the first side and the second side of the two-sided planar antenna.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
- - 2. The assembly of claim 1, further comprising a race bib for selective attachment to the body, the race bib having a front planar surface for placement outward from the body and an opposing back planar surface for placement proximate to the body, wherein the carrier surface is at least one of the front and back planar surfaces of the race bib, and wherein at least one of the first planar surface of the mounting substrate is attached to the back surface of the race bib with an adhesive material and the spacer is attached to the front surface of the race bib with an adhesive material.
  - 3. The assembly of claim 1, further comprising an adhesive material attached to the at least one planar surface adapted for selective attachment to the carrier surface.
  - 4. The assembly of claim 1 wherein the antenna is a bipolar foil antenna.
  - 5. The assembly of claim 1 wherein the RFID semiconductor chip and the conductor are each formed on the mounting surface of the mounting substrate.
  - 6. The assembly of claim 1 wherein the antenna is formed on one of the surfaces of the mounting substrate as a foil antenna.
  - 7. The assembly of claim 1 wherein the mounting substrate is a polyester (PET) film.
  - 8. The assembly of claim 1 wherein the substrate of the RFID tag assembly is substantially planar having a length, a width and a thickness, the thickness being defined by the distance between the first planar surface and the opposing second planar surface, and wherein the spacer has a length and width substantially equal to or greater than the length and width of the RFID tag assembly mounting substrate, respectively.
  - 9. The assembly of the claim 1 wherein the spacer is attached to the second planar surface of the mounting substrate by an adhesive material.
  - 10. The assembly of claim 1, further comprisinga mounting body having the carrier surface thereon, the carrier surface being composed of a non-permeable material and the at least one planar surface is attached to the carrier surface;
    - the spacer being composed of a waterproof non-permeable foam material, said attached spacer and attached carrier surface providing a sealing of the RFID tag assembly from external foreign substances and moisture.
  - 11. The assembly of claim 1 wherein the spacer is composed of a high density foam material.

12. A method of assembling a radio frequency identification (RFID) assembly having a radio frequency energy and a wavelength of a predetermined operating frequency in the UHF frequency band, the method comprising:
- mounting an RFID tag having a mounting substrate with an exposed first planar surface and an opposing second planar surface, at least one of which is adapted for selective attachment to a surface of a carrier, said RFID tag having an RFID semiconductor chip having a predetermined operating frequency with an antenna interface mounted on the second planar surface, a conductor electrically coupled to the antenna interface of the RFID semiconductor chip, and an antenna electrically coupled to the conductor and having a two sided planar antenna with a first side oriented away from an operating surface of a body and a second side opposing the first side and oriented towards the operating surface of the body; and
  
  attaching a spacer composed of a foam material that is non-conducting and non-absorbing of a substantial amount of energy at the predetermined operating frequency, said spacer is attached to the at least one of the first and second planar surfaces of the mounting substrate and is positioned for placement between the operating surface of the body and the RFID tag for positioning at a minimum spaced apart distance from the operating surface of the body during operation of the RFID tag, the spacer composed of non-conducting material having a predetermined thickness of between about 0.125 inches and about 0.5 inches and that is non-absorbing of a substantial amount of radio frequency energy at the predetermined operating frequency transmitted by a remotely positioned antenna of a base station radio transceiver,wherein the mounted RFID tag and the attached spacer are configured to receive at the first side of the two sided planar antenna a first portion of the radio frequency energy as direct energy as transmitted from the antenna of the base station radio transceiver and receives at the second side of the two-sided planar antenna a second portion of the radio frequency energy as indirect energy as transmitted from the antenna of the base station radio transceiver responsive to the absorbing of the substantial amount of radio frequency energy by the body, said second portion of the radio frequency energy being received at the predetermined operating frequency, and the RFID semiconductor chip processes the received first and second portions of the radio frequency energy and generates a reply radio frequency energy at a predetermined reply operating frequency in response to the receiving and processing the first and second received radio frequency energy portions, radiates the generated reply radio frequency energy from at least one of the first side and the second side of the two-sided planar antenna.
- View Dependent Claims (13, 14, 15, 16, 17)
- - 13. The method of assembly of claim 12, further comprising selectively attaching the assembly of claim 12 to a race bib having a front planar surface for placement outward from the body and an opposing back planar surface for placement proximate to the body, wherein the carrier surface is at least one of the front and back planar surfaces of the race bib, and wherein at least one of the first planar surface of the mounting substrate is attached to the back surface of the race bib with an adhesive material and the spacer is attached to the front surface of the race bib with an adhesive material.
  - 14. The method of assembly of claim 12, further providing the mounting substrate composed of a polyester (PET) film.
  - 15. The method of assembly of claim 12, further comprising forming the substrate of the RFID tag assembly to be substantially planar and having a length, a width and a thickness, the thickness being defined by the distance between the first planar surface and the opposing second planar surface, and wherein the spacer has a length and width substantially equal to or greater than the length and width of the RFID tag assembly mounting substrate, respectively.
  - 16. The method of assembly of claim 12 wherein attaching the spacer to the second planar surface of the mounting substrate is attaching using an adhesive material.
  - 17. The method of assembly of claim 12, further comprisingforming a mounting body having the carrier surface thereon, the carrier surface being composed of a non-permeable material and the at least one planar surface is attached to the carrier surface;
    - andforming the spacer being composed of a waterproof non-permeable foam material, said attaching of the spacer to the carrier surface providing a sealing of the RFID tag assembly from external foreign substances and moisture.

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Current Assignee
Innovative Timing Systems LLC
Original Assignee
Innovative Timing Systems LLC
Inventors
Hansen, Kurt S.
Primary Examiner(s)
SYED, NABIL H

Application Number

US14/793,364
Publication Number

US 20160004946A1
Time in Patent Office

252 Days
Field of Search
US Class Current

1/1
CPC Class Codes

G06K 19/0723   the record carrier comprisi...

G06K 19/0772   Physical layout of the reco...

G06K 19/07745   Mounting details of integra...

G06K 19/07749   the record carrier being ca...

G06K 19/07754   the connection being galvanic

G06K 19/07758   arrangements for adhering t...

G06K 19/07775   the antenna being on-chip

G06K 7/10009   sensing by radiation using ...

G06K 7/10316   using at least one antenna ...

Spaced apart extended range RFID tag assembly

First Claim

1 Assignment

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Abstract

88 Citations

17 Claims

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Spaced apart extended range RFID tag assembly

First Claim

1 Assignment

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Litigations

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Accused Products

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Abstract

88 Citations

17 Claims

Specification

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Solutions

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