Communication systems, communication apparatuses, radio frequency communication methods, methods of communicating using a radio frequency communication system, and methods of forming a radio frequency communication device
First Claim
1. A communication system comprising:
- an interrogator configured to output a radio frequency signal; and
a communication device configured to communicate with the interrogator and including;
a receive antenna configured to receive the radio frequency signal;
a backscatter antenna;
a switch configured to selectively short-circuit a plurality of leads of the backscatter antenna providing a first load impedance of the backscatter antenna and a second load impedance of the backscatter antenna less than the first load impedance; and
communication circuitry configured to control the switch to implement backscatter communications using the backscatter antenna during a transmit mode of operation of the communication device, and to provide the switch in an open state during a receive mode of operation of the communication device; and
a transformer coupled with the communication circuitry and the backscatter antenna and configured to transform a load impedance of the backscatter antenna from the first load impedance to the second load impedance during the receive mode of operation of the communication device to provide beam forming of the backscatter antenna and the receive antenna.
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Accused Products
Abstract
The present invention provides communication devices, communication systems and methods of communicating. According to one embodiment of the invention, a communication device includes: a first antenna operable to receive wireless communication signals; a second antenna having plural leads, the second antenna being operable to output wireless communication signals; a connection including plural conductive lines having respective first ends and second ends, the connection being coupled with the leads of the second antenna at the first ends of the lines; and a switch coupled with the second ends of the connection, the switch being operable to provide one of selective shorting and isolation of the leads. One method of communicating of the invention includes: forming a first antenna; forming a second antenna; receiving wireless interrogation signals using the first antenna; outputting wireless identification signals using the second antenna; opening a coupling intermediate plural leads of the second antenna during the receiving; selectively shorting the leads of the second antenna during the outputting; and providing a low load impedance of the second antenna during the receiving.
44 Citations
32 Claims
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1. A communication system comprising:
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an interrogator configured to output a radio frequency signal; and a communication device configured to communicate with the interrogator and including; a receive antenna configured to receive the radio frequency signal; a backscatter antenna; a switch configured to selectively short-circuit a plurality of leads of the backscatter antenna providing a first load impedance of the backscatter antenna and a second load impedance of the backscatter antenna less than the first load impedance; and communication circuitry configured to control the switch to implement backscatter communications using the backscatter antenna during a transmit mode of operation of the communication device, and to provide the switch in an open state during a receive mode of operation of the communication device; and a transformer coupled with the communication circuitry and the backscatter antenna and configured to transform a load impedance of the backscatter antenna from the first load impedance to the second load impedance during the receive mode of operation of the communication device to provide beam forming of the backscatter antenna and the receive antenna. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A communication apparatus comprising:
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a first antenna; a second antenna; and communication circuitry coupled with the first antenna and configured to process radio frequency signals received via the first antenna from an interrogator, the communication circuitry being further configured to control the operation of the second antenna between a first load impedance and a second load impedance less than the first load impedance to implement backscatter communications using the second antenna and to provide the second antenna including the second load impedance during receiving of the radio frequency signals using the first antenna. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A communication apparatus comprising:
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a receive antenna adapted to receive radio frequency signals from an interrogator; a dipole antenna including a plurality of halves; communication circuitry configured to selectively electrically short the halves to communicate backscatter signals to the interrogator and to substantially electrically insulate the halves from one another during the receiving of radio frequency signals via the receive antenna; and a coupler configured to electrically couple the halves with the communication circuitry and to provide a load impedance of the dipole antenna during the electrical insulation of the halves less than a load impedance of the dipole antenna during the electrical shorting of the halves. - View Dependent Claims (15, 16, 17, 18)
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19. A radio frequency communication method comprising:
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receiving a radio frequency signal using a receive antenna of a communication device; selectively shorting and electrically insulating a plurality of halves of a dipole antenna to communicate a backscatter signal from the communication device; electrically insulating the halves of the dipole antenna during the receiving; and transforming a high load impedance of the dipole antenna to a low load impedance of the dipole antenna during the receiving. - View Dependent Claims (20, 21, 22)
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23. A method of communicating using a radio frequency communication system, the method comprising:
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outputting a wireless interrogation signal using an interrogator; receiving the wireless interrogation signal using a receive antenna of a remote communication device; controlling a load impedance of a return link antenna of the remote communication device between a first load impedance and a second load impedance less than the first load impedance to communicate information from the remote communication device to the interrogator responsive to the receiving; and providing the return link antenna including the second load impedance during the receiving. - View Dependent Claims (24, 25)
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26. A method of forming a radio frequency communication device comprising:
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providing a substrate; coupling communication circuitry configured to process received radio frequency signals with the substrate; providing a receive antenna and a dipole antenna over the substrate and spaced by a distance substantially equal to a wavelength of the radio frequency signals; and coupling the dipole antenna and the communication circuitry using a connection including a length equal to approximately one fourth the wavelength of the radio frequency signals; and coupling the receive antenna and the communication circuitry. - View Dependent Claims (27, 28, 29, 30, 31)
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32. A radio frequency identification device comprising:
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a substrate; a first antenna borne by the substrate, the first antenna being operable to receive wireless interrogation signals; a second antenna borne by the substrate and having plural leads, the second antenna being operable to output wireless identification signals responsive to reception of wireless interrogation signals, the first antenna and the second antenna being separated by a distance approximately equal to the wavelength of the wireless interrogation and identification signals; a transmission line connection including plural conductive lines having respective first ends and second ends, the transmission line connection having a length of approximately one quarter the wavelength of the wireless interrogation and identification signals and being coupled with the plural leads of the second antenna at the first ends of the conductive lines, the transmission line connection being further operable as a transformer to transform a high load impedance of the second antenna to a low load impedance; and an integrated circuit including a microprocessor, transponder circuitry and a switch, the switch being coupled with the second ends of the conductive lines of the transmission line connection, the microprocessor operable to control the switch to provide shorting of the leads during receiving of the wireless interrogation signals and selective isolation of the leads during outputting of the wireless identification signals.
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Specification