WIRELESS IMPEDANCE SPECTROMETER
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Abstract
A system and method for measuring the permittivity and/or the impedance of a material are based on transmitting a first RF signal to a transponder coupled to the material. The transponder is equipped with a resonant antenna coupled to the material such that the response of the antenna is affected by the material. The signal strength of a second RF signal transmitted by the transponder in response to the first RF signal, and received by an interrogator, is measured. The interrogator can calculate both the real part and the imaginary part of the complex impedance of the material from multiple measurements of the signal strength of the second RF signal taken at a plurality of frequencies of the first RF signal.
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Citations
53 Claims
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1-37. -37. (canceled)
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38. An apparatus for sensing a wave impedance of a material, the apparatus comprising:
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an interrogator including at least one interrogating antenna, a transmitter, a receiver, and an impedance calculator, wherein the transmitter transmits a first radio-frequency (RF) signal and the impedance calculator determines the wave impedance of the material; a transponder, wherein the transponder generates a second RF signal responsive to the first RF signal, wherein the second RF signal is received by the receiver; a range extender that is electrically coupled to the transponder, and wherein the range extender does not electromagnetically couple to the material; a first resonant antenna, wherein the first resonant antenna is not disposed in the material and is electrically coupled to the range extender; and a coupler, wherein the coupler is at least one of either electrically coupled or magnetically coupled to the range extender, and wherein the coupler generates at least one of an electrical, electromagnetic, or a magnetic field in the material, and further wherein the at least one field couples to the material such that an electrical impedance of the coupler is affected by the material, wherein; the transponder and the coupler are disposed in the material. - View Dependent Claims (39, 40, 41, 42, 43, 44, 45, 46, 47, 48, 49, 50, 51)
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46-1. The apparatus of claim 38 wherein the interrogator further comprises a frequency generator.
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52. A method for sensing a wave impedance of a material, the method comprising:
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disposing a transponder within the material, wherein the transponder generates a second RF signal responsive to a first RF signal generated by an interrogator that is not within the material; disposing a coupler within the material, wherein the coupler generates at least one of an electric, electromagnetic, or magnetic field in the material, and further wherein the at least one field couples to the material such that an electrical impedance of the coupler is affected by the material; electrically coupling a range extender to the transponder, wherein the range extender does not electromagnetically couple to the material and wherein the range extender extends outside of the material; forming a first operative coupling between the material, the transponder, and the coupler; forming a second operative coupling between the transponder and a first resonant antenna that is not within the material; and forming a third operative coupling between the interrogator and the first resonant antenna, wherein; a first RF signal is transmitted from the interrogator to the transponder via the third operative coupling and the second operative coupling; and a second RF signal is transmitted from the transponder to the interrogator via the second operative coupling and the third operative coupling, wherein the second RF signal is generated by the transponder responsive to the first RF signal, and wherein a signal strength of the first RF signal and the second RF signal are dependent, in part, on the wave impedance of the material, due to the first operative coupling.
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53. A method for sensing a wave impedance of a material, the method comprising:
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disposing a transponder within the material; disposing a coupler within the material, wherein the coupler generates at least one of an electric, electromagnetic, or magnetic field in the material, and further wherein the field couples to the material such that an electrical impedance of the coupler is affected by the material; electrically coupling a range extender to the transponder, wherein the range extender does not electromagnetically couple to the material and wherein the range extender extends outside of the material; transmitting, by an interrogator, a first radio-frequency (RF) signal at a first frequency; receiving, by the transponder, through a resonant antenna that is not within the material but that is electrically coupled the range extender, the first RF signal; generating, by the transponder, a second RF signal based on the first RF signal; receiving, by the interrogator, the second RF signal; measuring a first signal strength of the second RF signal, as received by the interrogator; calculating the wave impedance of the material based on the signal strength of the second RF signal and a frequency of the first RF signal.
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Specification
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Current AssigneeWilliam N. Carr
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Original AssigneeWilliam N. Carr
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InventorsCarr, William N.
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Granted Patent
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Time in Patent OfficeDays
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Field of Search
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US Class Current
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CPC Class CodesG01N 22/00 Investigating or analysing ...G01N 27/02 by investigating impedanceG01N 27/026 Dielectric impedance spectr...G01N 33/383 Concrete or cementG01R 15/146 Measuring arrangements for ...G01R 29/0814 Field measurements related ...G01R 29/0878 Sensors; antennas; probes; ...G01R 31/002 where the device under test...
