Right and left hand circularly polarized RFID backscatter antenna
First Claim
Patent Images
1. An antenna circuit comprising:
- an antenna capable of coupling to radio waves having rotational polarization in a frequency band;
a signal transmission path having a first end coupled to the antenna; and
a signal conditioning circuit having first and second ports coupled to a second end of the signal transmission path, the signal conditioning circuit coupling first signals in the frequency band to an output port of the signal conditioning circuit in response to first radio waves received by the antenna having a first polarization and coupling second signals in the frequency band from an input port of the signal conditioning circuit to the antenna to radiate second radio waves having a second, rotational polarization different than the first polarization, wherein the signal transmission path comprises two quarter-wavelength transmission lines acting as impedance transformers and the signal transmission path includes a first pair of ends coupled to the antenna and a second pair of ends coupled to the signal conditioning circuit.
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Abstract
An antenna, system and method for transmitting and receiving RF signals over a first frequency band using a single antenna or two closely spaced antennas. In one embodiment, the antenna is configured to receive first signals in the first frequency band having a first rotational polarization and to transmit second signals in the first frequency band and having a second rotational polarization. The second signals may be transmitted in response to the first signals. The first signals may be preferentially routed to a receiver using signal conditioning circuitry that also routes the second signals from a transmitter to the antenna but not to the receiver.
39 Citations
33 Claims
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1. An antenna circuit comprising:
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an antenna capable of coupling to radio waves having rotational polarization in a frequency band;
a signal transmission path having a first end coupled to the antenna; and
a signal conditioning circuit having first and second ports coupled to a second end of the signal transmission path, the signal conditioning circuit coupling first signals in the frequency band to an output port of the signal conditioning circuit in response to first radio waves received by the antenna having a first polarization and coupling second signals in the frequency band from an input port of the signal conditioning circuit to the antenna to radiate second radio waves having a second, rotational polarization different than the first polarization, wherein the signal transmission path comprises two quarter-wavelength transmission lines acting as impedance transformers and the signal transmission path includes a first pair of ends coupled to the antenna and a second pair of ends coupled to the signal conditioning circuit. - View Dependent Claims (2, 3, 4, 5)
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6. An antenna circuit comprising:
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a patch antenna capable of coupling to radio waves having right or left hand circular polarization in a frequency band;
a pair of quarter-wavelength transmission lines, a first line of the pair having a first end coupled to a first edge of the patch antenna and a second line of the pair having a first end coupled to a second edge of the patch antenna adjacent the first edge; and
a quadrature hybrid coupler having a first port coupled to a second end of the first line and a second port, adjacent the first port, coupled to a second end of the second line, the quadrature hybrid coupler providing an output signal at an output port in response to first radio waves in the frequency band impinging on the patch antenna with a first polarization and causing the patch antenna to radiate second radio waves having a second, circular polarization different than the first polarization when an input signal in the frequency band is coupled to an input port of the quadrature hybrid coupler, a phase shift of ninety degrees existing between any pair of adjacent ports of the quadrature hybrid coupler. - View Dependent Claims (7, 8, 9)
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10. A system for remotely polling one or more objects comprising:
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at least one transponding module associated with a corresponding object; and
an interrogator including a transmitter for transmitting an interrogation signal having a first rotational polarization and a receiver for receiving a response signal having a second polarization, the interrogator including;
an antenna configured to couple to the interrogation and response signals;
a signal conditioning circuit having first and second ports coupled to the antenna;
a receiver coupled to an output port of the signal conditioning unit, the signal conditioning circuit coupling the response signal from the antenna to the receiver; and
a transmitter coupled to an input port of the signal conditioning unit, the signal conditioning circuit coupling the interrogation signal from the transmitter to the antenna but not the receiver to transmit the interrogation signal. - View Dependent Claims (11, 12, 13, 14, 15, 16)
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17. An antenna system comprising:
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an antenna for providing a response signal from a response radio wave having a first polarization in a frequency band;
means for coupling the response signal to an output port; and
means for coupling an interrogation signal in the frequency band to an input to the antenna to provide a transmitted radio wave having a second, rotational polarization different than the first polarization and not coupling the interrogation signal to the output port. - View Dependent Claims (18, 19, 20, 21, 22)
means for coupling the response signal to a receiver; and
means for coupling the interrogation signal from a transmitter to the antenna.
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19. The antenna system of claim 18 wherein the means for coupling the response signal comprises means for coupling the response signal but not the interrogation signal to the receiver.
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20. The antenna system of claim 17 wherein the means for coupling an interrogation signal comprises means for coupling an interrogation signal to the input to the antenna to provide a circularly polarized radio wave.
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21. The antenna system of claim 17 wherein the means for coupling a response signal comprises means for coupling a response signal to the output port in response to a polarized radio wave received by the antenna.
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22. The antenna system of claim 21 wherein means for coupling a response signal comprises means for coupling a response signal from a circularly polarized radio wave having a chirality opposite that of the radio wave provided from the interrogation signal to the output port.
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23. A method of coupling signals between an interrogation unit and a transponding module comprising:
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transmitting a first signal from the interrogation unit, the first signal including one radio wave in a frequency band having a first rotational polarization;
receiving a linearly polarized component of the first signal in the transponding module;
transmitting a linearly polarized signal in the frequency band from the transponding module; and
receiving another radio wave including a rotationally polarized component of the linearly polarized signal at the interrogation unit, the rotationally polarized component having a second rotational polarization that is different from the first rotational polarization. - View Dependent Claims (24, 25, 26, 27)
coupling signals from the another radio wave but not from the one radio wave to a receiver through a signal conditioning circuit; and
coupling signals from a transmitter to the antenna through the signal conditioning circuit to provide the one radio wave.
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26. The method of claim 24 herein receiving another radio wave comprises receiving a response signal.
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27. The method of claim 24 wherein transmitting the one radio wave comprises transmitting a circularly polarized interrogation signal.
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28. An antenna circuit comprising:
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an antenna capable of coupling to radio waves having rotational polarization in a frequency band;
a signal transmission path having a first end coupled to the antenna; and
a signal conditioning circuit having first and second ports coupled to a second end of the signal transmission path, the signal conditioning circuit coupling first signals in the frequency band to an output port of the signal conditioning circuit in response to data included in first radio waves received by the antenna having a first polarization and coupling second signals in the frequency band from an input port of the signal conditioning circuit to the antenna to radiate second radio waves having a second, rotational polarization different than the first polarization. - View Dependent Claims (29, 30, 31, 32, 33)
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Specification
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Current AssigneeRound Rock Research LLC
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Original AssigneeMicron Technology, Inc.
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InventorsOvard, David K., Khatri, Dirgha, Greeff, Roy
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Primary Examiner(s)Wong, Don
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Assistant Examiner(s)TRAN, CHUC
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Application NumberUS09/349,615Time in Patent Office726 DaysField of Search343/700.MS, 343/756, 343/795, 343/890, 343/731, 343/850, 343/860, 343/864, 342/365, 342/361, 342/373, 455/562, 455/101, 455/132, 455/272US Class Current343/700.0MSCPC Class CodesH01Q 1/38 formed by a conductive laye...
