Detection of volatile chemicals using an RFID sensing system

US 9,945,793 B2
Filed: 10/10/2016
Issued: 04/17/2018
Est. Priority Date: 03/11/2013
Status: Active Grant

First Claim

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1. A non-transitory computer-readable medium having stored thereon computer-executable instructions that, in response to execution by one or more processors, cause the one or more processors to perform or control performance of operations to:

broadcast a request signal over a request frequency range;

obtain a first response from a radio-frequency identification (RFID) tag, in response to the broadcast of the request signal at a first request frequency within the request frequency range, wherein the RFID tag is composed of a patterned metal, and wherein the patterned metal absorbs a first volatile chemical;

send a first command to the RFID tag at the first request frequency to open a first valve, wherein the first valve allows a fluid to flow over the RFID tag;

send a second command to the RFID tag at the first request frequency to close the first valve; and

determine a level of the first volatile chemical absorbed in the patterned metal based upon the first request frequency.

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Abstract

Methods, systems, and apparatuses, including computer programs encoded on computer-readable media, for monitoring volatile chemicals. A system includes an radio-frequency identification (RFID) tag composed of a patterned metal. The patterned metal is configured to absorb a volatile chemical. The RFID tag includes a non-volatile memory configured to store identification data. The RFID tag also includes a receiver that receives a signal at a frequency in a frequency range. The frequency is based upon an amount of the volatile chemical absorbed in the patterned metal. A transmitter of the RFID tag transmits the identification data in response to receiving the signal. The strength of the transmitted identification data is based upon an amount of the absorbed volatile chemical.

13 Citations

17 Claims

1. A non-transitory computer-readable medium having stored thereon computer-executable instructions that, in response to execution by one or more processors, cause the one or more processors to perform or control performance of operations to:
- broadcast a request signal over a request frequency range;
  
  obtain a first response from a radio-frequency identification (RFID) tag, in response to the broadcast of the request signal at a first request frequency within the request frequency range, wherein the RFID tag is composed of a patterned metal, and wherein the patterned metal absorbs a first volatile chemical;
  
  send a first command to the RFID tag at the first request frequency to open a first valve, wherein the first valve allows a fluid to flow over the RFID tag;
  
  send a second command to the RFID tag at the first request frequency to close the first valve; and
  
  determine a level of the first volatile chemical absorbed in the patterned metal based upon the first request frequency.
- View Dependent Claims (2, 3, 4, 5, 6, 7)
- - 2. The non-transitory computer-readable medium of claim 1, wherein the computer-executable instructions that, in response to execution, further cause the one or more processors to perform at least one operation to:
    - obtain a second response from the RFID tag, in response to the broadcast of the request signal at a second request frequency within the request frequency range, wherein the patterned metal absorbs a second volatile chemical; and
      
      determine a level of the second volatile chemical absorbed in the patterned metal based upon the second request frequency.
  - 3. The non-transitory computer-readable medium of claim 1, wherein the patterned metal absorbs the first volatile chemical from the fluid.
  - 4. The non-transitory computer-readable medium of claim 1, wherein the patterned metal comprises gold or silver.
  - 5. The non-transitory computer-readable medium of claim 4, wherein the first volatile chemical absorbed by the patterned metal comprises one of a sulfide and a thiol.
  - 6. The non-transitory computer-readable medium of claim 1, wherein the patterned metal comprises platinum or tungsten.
  - 7. The non-transitory computer-readable medium of claim 6, wherein the first volatile chemical absorbed by the patterned metal comprises sulphur dioxide.

8. A sensor to detect a volatile chemical, the sensor comprising:
- a chamber that comprises a polymer section, wherein the chamber is configured to allow a flow of a fluid, and wherein the chamber is connected to the polymer section through one or more valves;
  
  a substrate attached onto an inner wall of the polymer section of the chamber; and
  
  a radio-frequency identification (RFID) tag formed on a surface of the substrate, wherein the RFID tag is communicatively coupled to an RFID reader, and wherein the RFID tag is composed of a patterned metal configured to absorb the volatile chemical, the RFID tag comprising;
  
  a non-volatile memory having stored thereon computer executable instructions that, in response to execution by one or more processors, cause the one or more processors to perform or control performance of operations to;
  
  obtain a request signal at a frequency in a frequency range, wherein the frequency is based upon an amount of the volatile chemical absorbed in the patterned metal, wherein a first signal is obtained from the RFID reader to open the one or more valves, and wherein a second signal is obtained from the RFID reader to close the one or more valves; and
  
  transmit identification data in response to the obtained request signal, wherein a strength of the transmitted identification data is based upon the amount of the volatile chemical absorbed in the patterned metal.
- View Dependent Claims (9, 10, 11, 12, 13, 14, 15, 16, 17)
- - 9. The sensor of claim 8, wherein the patterned metal is configured to absorb the volatile chemical from the fluid.
  - 10. The sensor of claim 8, wherein a strength of the request signal is based upon the amount of the volatile chemical absorbed in the patterned metal.
  - 11. The sensor of claim 8, wherein the RFID reader is configured to:
    - broadcast the request signal over a plurality of frequencies in a request frequency range;
      
      receive a response from the RFID tag at a particular request frequency; and
      
      determine a level of the volatile chemical absorbed in the patterned metal based upon a strength of the received response from the RFID tag and the particular request frequency.
  - 12. The sensor of claim 8, wherein the polymer section comprises polytetraflouroethylene.
  - 13. The sensor of claim 8, wherein the substrate comprises one of a polyimide film and a biaxially-oriented polyethylene terephthalate.
  - 14. The sensor of claim 8, wherein the patterned metal comprises gold or silver.
  - 15. The sensor of claim 14, wherein the volatile chemical absorbed by the patterned metal comprises one of a sulfide or a thiol.
  - 16. The sensor of claim 8, wherein the patterned metal comprises platinum or tungsten.
  - 17. The sensor of claim 16, wherein the volatile chemical absorbed by the patterned metal comprises sulphur dioxide.

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Current Assignee
Empire Technology Development LLC (Allied Inventors Management, LLC)
Original Assignee
Empire Technology Development LLC (Allied Inventors Management, LLC)
Inventors
Roundhill, David Max
Primary Examiner(s)
Siefke, Samuel P

Application Number

US15/289,714
Publication Number

US 20170030843A1
Time in Patent Office

554 Days
Field of Search
US Class Current
CPC Class Codes

G01N 22/00   Investigating or analysing ...

G01N 27/025   a current being generated w...

G01N 27/122   Circuits particularly adapt...

G01N 27/416   Systems G01N27/27 takes pre...

G01N 33/0042   for SO2, SO3

G01N 33/0044   for H2S, sulfides

G01N 33/0075   for multiple spatially dist...

Detection of volatile chemicals using an RFID sensing system

First Claim

1 Assignment

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Abstract

13 Citations

17 Claims

Specification

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Detection of volatile chemicals using an RFID sensing system

First Claim

1 Assignment

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0 Petitions

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Accused Products

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Abstract

13 Citations

17 Claims

Specification

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Solutions

Use Cases

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