Homodyne single mixer receiver and method therefor

US 7,199,713 B2
Filed: 11/19/2004
Issued: 04/03/2007
Est. Priority Date: 11/19/2004
Status: Active Grant

First Claim

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1. An REID circuit, comprising:

an RF carrier signal source;

a hybrid coupled to the RF carrier signal source operable to generate an in-phase and a quadrature phase component of the RF carrier signal;

a switch coupled to the hybrid operable to selectively pass only one of the in-phase and quadrature phase components of the RF carrier signal to its output; and

a mixer coupled to the output of the switch operable to multiply the selectively passed one of the in-phase and quadrature phase components of the carrier signal and a received modulated carrier signal and generate a baseband signal.

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Abstract

An RFID circuit comprises an RF carrier signal source, a hybrid coupled to the RF carrier signal source operable to generate an in-phase and a quadrature phase component of the RF carrier signal, a switch coupled to the hybrid operable to pass one of the in-phase and quadrature phase components of the RF carrier signal to its output, and a mixer coupled to the output of the switch operable to multiply one of the in-phase and quadrature phase component of the carrier signal and a received modulated carrier signal and generate a baseband signal.

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29 Claims

1. An REID circuit, comprising:
- an RF carrier signal source;
  
  a hybrid coupled to the RF carrier signal source operable to generate an in-phase and a quadrature phase component of the RF carrier signal;
  
  a switch coupled to the hybrid operable to selectively pass only one of the in-phase and quadrature phase components of the RF carrier signal to its output; and
  
  a mixer coupled to the output of the switch operable to multiply the selectively passed one of the in-phase and quadrature phase components of the carrier signal and a received modulated carrier signal and generate a baseband signal.
- View Dependent Claims (2, 3, 4, 5, 6)
- - 2. The RFID circuit of claim 1, further comprising:
    - an information signal source;
      
      a transmitter receiving the RF carrier signal and the information signal and operable to modulate the RF carrier signal according to the information signal; and
      
      an antenna transmitting the modulated RF carrier signal.
  - 3. The RFID circuit of claim 1, further comprising a splitter coupled to the RF carrier signal source and operable to pass the RF carrier signal to the hybrid and the transmitter.
  - 4. The RFID circuit of claim 1, wherein the switch is operable to selectively pass only one of the in-phase and quadrature phase components of the RF carrier signal in alternate polling cycles.
  - 5. The RFID circuit of claim 1, further comprising a filter to remove unwanted signals from the received modulated carrier signal.
  - 6. The RFID circuit of claim 1, further comprising a bandpass filter receiving the received modulated carrier signal and passing RF signals within a predetermined bandwidth to the mixer.

7. An RFID circuit, comprising:
- an RF carrier signal source;
  
  a hybrid coupled to the RF carrier signal source operable to generate an in-phase and a quadrature phase component of the RF carrier signal;
  
  an RF switch coupled to the hybrid operable to selectively pass only one of the in-phase and quadrature phase components of the RF carrier signal to its output;
  
  a mixer coupled to the output of the switch operable to multiply the selectively passed one of the in-phase and quadrature phase component of the carrier signal and a received modulated carrier signal and generate a baseband signal; and
  
  a processor operable to generate a control signal to the RF switch for selectively passing only one of the in-phase and quadrature phase components of the RF carrier signal to the mixer.
- View Dependent Claims (8, 9, 10, 11, 12, 13)
- - 8. The RFID circuit of claim 7, further comprising:
    - a transmitter receiving the RF carrier signal and an information signal generated by the processor and operable to modulate the RF carrier signal according to the information signal; and
      
      an antenna transmitting the modulated RF carrier signal.
  - 9. The RFID circuit of claim 7, further comprising a splitter coupled to the RF carrier signal source and operable to pass the RF carrier signal to the hybrid and the transmitter.
  - 10. The RFID circuit of claim 7, wherein the switch is operable to selectively pass only one of the in-phase and quadrature phase components of the RF carrier signal in alternate polling cycles.
  - 11. The RFID circuit of claim 7, further comprising a filter to remove unwanted signals from the received modulated carrier signal.
  - 12. The RFID circuit of claim 7, further comprising a bandpass filter receiving the received modulated carrier signal and passing RF signals within a predetermined bandwidth to the mixer.
  - 13. The RFID circuit of claim 7, further comprising a demodulator operable to demodulate the received modulated carrier signal.

14. A circuit, comprising:
- a carrier signal source;
  
  a mixer operable to alternately multiply only a selected one of an in-phase and quadrature phase component of the carrier signal and a received modulated carrier signal to generate a baseband signal for demodulation and decoding.
- View Dependent Claims (15, 16, 17, 18, 19)
- - 15. The circuit of claim 14, further comprising:
    - a hybrid coupled to the carrier signal source operable to generate an in-phase and a quadrature phase component of the carrier signal;
      
      a switch coupled to the hybrid operable to selectively pass only the selected one of the in-phase and quadrature phase components of the carrier signal to the mixer.
  - 16. The RFID circuit of claim 14, further comprising:
    - an information signal source;
      
      a transmitter receiving the carrier signal and the information signal and operable to modulate the carrier signal according to the information signal; and
      
      an antenna transmitting the modulated carrier signal.
  - 17. The RFID circuit of claim 16, further comprising a splitter coupled to the carrier signal source and operable to pass the RF carrier signal to the hybrid and the transmitter.
  - 18. The RFID circuit of claim 14, wherein the switch is operable to selectively pass only the selected one of the in-phase and quadrature phase components of the RF carrier signal in alternate polling cycles.
  - 19. The RFID circuit of claim 14, further comprising a filter to remove unwanted signals from the received modulated carrier signal.

20. A method comprising:
- generating a carrier signal;
  
  receiving a modulated carrier signal;
  
  multiplying the modulated carrier signal and only an in-phase phase component of the carrier signal to generate a baseband signal;
  
  demodulating the baseband signal;
  
  decoding the demodulated baseband signal;
  
  determining whether the decoded signal is valid; and
  
  repeating the above steps and multiplying using only a quadrature phase component of the carrier signal to generate the baseband signal in response to the decoded signal being invalid.
- View Dependent Claims (21, 22, 23, 24)
- - 21. The method of claim 20, further comprising:
    - generating an information signal;
      
      modulating the carrier signal according to the information signal;
      
      transmitting the carrier signal modulated according to the information signal; and
      
      receiving the modulated carrier signal generated in response to the carrier signal modulated according to the information signal.
  - 22. The method of claim 20, further comprising multiplying the modulated carrier signal and only the in-phase phase component of the carrier signal in one polling cycle, and multiplying the modulated carrier signal and only the quadrature phase component of the carrier signal in a next polling cycle in response to the decoded signal being invalid.
  - 23. The method of claim 20, further comprising removing unwanted signals from the received modulated carrier signal.
  - 24. The method of claim 20, further comprising examining an error-checking code of the decoded data to determine validity of the received modulated signal.

25. A method comprising:
- generating a earner signal;
  
  modulating the carrier signal and transmitting the modulated carrier signal;
  
  receiving a backscattered modulated carrier signal;
  
  multiplying the backscattered modulated carrier signal and only an in-phase phase component of the carrier signal to generate a baseband signal;
  
  demodulating the baseband signal;
  
  decoding the demodulated baseband signal;
  
  determining validity of the decoded signal; and
  
  in response to the decoded signal being invalid, repeating the above steps and multiplying the received backscattered modulated carrier signal using only a quadrature phase component of the carrier signal to generate a valid decoded signal.

26. A method comprising:
- in a polling cycle;
  
  generating a carrier signal;
  
  modulating the carrier signal with an information signal and generating a query signal;
  
  receiving a backscattered modulated carrier signal in response to the query signal;
  
  multiplying the backscattered modulated carrier signal and only an in-phase phase component of the carrier signal and generating a baseband signal;
  
  demodulating the baseband signal;
  
  decoding the demodulated baseband signal;
  
  in response to an invalid decoded signal;
  
  in a next polling cycle;
  
  generating the carrier signal;
  
  modulating the carrier signal with the information signal and generating a second query signal;
  
  receiving a second backscattered modulated carrier signal in response to the second query signal;
  
  multiplying the backscattered modulated carrier signal and only a quadrature phase component of the carrier signal and generating a second baseband signal;
  
  demodulating the second baseband signal; and
  
  decoding the demodulated second baseband signal and generating a valid decoded signal.

27. An RFID device comprising:
- means for generating a carrier signal;
  
  means for receiving a modulated carrier signal;
  
  means for multiplying the modulated carrier signal and only an in-phase phase component of the carrier signal to generate a baseband signal;
  
  means for demodulating the baseband signal;
  
  means for decoding the demodulated baseband signal;
  
  means for determining whether the decoded signal is valid; and
  
  means for repeating the above steps and multiplying using only a quadrature phase component of the carrier signal to generate the baseband signal in response to the decoded signal being invalid.

28. A method comprising:
- generating a carrier signal;
  
  receiving a modulated carrier signal;
  
  generating an in-phase component of the received modulated carrier signal;
  
  multiplying only the modulated received in-phase component of the carrier signal and the carrier signal to generate a baseband signal;
  
  demodulating the baseband signal;
  
  decoding the demodulated baseband signal;
  
  repeating the above steps and multiplying using only a quadrature phase component of the received modulated carrier signal to generate the baseband signal in response to the decoded signal being invalid.
- View Dependent Claims (29)
- - 29. The method of claim 28, further comprising multiplying only the modulated received in-phase component of the carrier signal and the carrier signal in one polling cycle, and multiplying only the modulated received quadrature phase component of the carrier signal and the carrier signal in a next polling cycle in response to the decoded signal being invalid.

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Current Assignee
Neology Incorporated (OEP Technologie BV)
Original Assignee
Sirit Technologies, Inc.
Inventors
d'Hont, Loek J., Barink, Bernard, Bishop, Gary M., Havlicek, Gregory G.
Primary Examiner(s)
TRIEU, VAN THANH

Application Number

US10/992,966
Publication Number

US 20060109127A1
Time in Patent Office

865 Days
Field of Search

340/572.1, 340/572.4, 340/571, 340/568.1, 340/573.1, 340/539.11, 340/10.1, 340/825.49, 455/41, 455/41.2, 455/456.1, 375/329
US Class Current

340/572.1
CPC Class Codes

G06K 7/0008 General problems related to...

H03D 1/2245 using two quadrature channe...

Homodyne single mixer receiver and method therefor

First Claim

8 Assignments

0 Petitions

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Abstract

Citations

29 Claims

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Homodyne single mixer receiver and method therefor

First Claim

8 Assignments

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Accused Products

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Abstract

Citations

29 Claims

Specification

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Solutions

Use Cases

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