Reader for a radio frequency identification system having automatic tuning capability
First Claim
1. A reader for a radio frequency identification system comprising:
- a resonant circuit including an LC pair for outputting an excitation signal;
a current detector coupled to said resonant circuit for determining a value of an operational parameter of said resonant circuit;
a decision-making circuit coupled to said current detector for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said resonant circuit for receiving the decision and conveying an adjustment instruction to said resonant circuit in response to the decision, thereby modifying the excitation signal output by said resonant circuit in response to the adjustment instruction.
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0 Petitions
Accused Products
Abstract
A reader for an RFID system has an exciter circuit for generating an excitation signal and a feedback circuit coupled to the exciter circuit for automatically tuning the exciter circuit. The exciter circuit has at least one retunable component providing the exciter circuit with adjustable component values and a plurality of signal generating states. The exciter circuit is initially tuned to a first signal generating state, but is retunable to additional signal generating states by adjusting the component value of the retunable component. The feedback circuit includes a circuit evaluator coupled to the exciter circuit for determining a value of an operational parameter of the exciter circuit. A decision-making circuit is coupled to the circuit evaluator for formulating a decision in response to the value of the operational parameter. An adjustment circuit is coupled to the decision-making circuit and exciter circuit for receiving the decision and conveying an adjustment instruction to the exciter circuit in response to the decision.
308 Citations
34 Claims
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1. A reader for a radio frequency identification system comprising:
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a resonant circuit including an LC pair for outputting an excitation signal;
a current detector coupled to said resonant circuit for determining a value of an operational parameter of said resonant circuit;
a decision-making circuit coupled to said current detector for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said resonant circuit for receiving the decision and conveying an adjustment instruction to said resonant circuit in response to the decision, thereby modifying the excitation signal output by said resonant circuit in response to the adjustment instruction. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A reader for a radio frequency identification system comprising:
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a resonant circuit including an LC pair for outputting an excitation signal;
a voltage detector coupled to said resonant circuit for determining a value of an operational parameter of said resonant circuit;
a decision-making circuit coupled to said voltage detector for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said resonant circuit for receiving the decision and conveying an adjustment instruction to said resonant circuit in response to the decision, thereby modifying the excitation signal output by said resonant circuit in response to the adjustment instruction. - View Dependent Claims (9, 10, 11, 12, 13, 14)
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15. A reader for a radio frequency identification system comprising:
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a resonant circuit including an LC pair for outputting an excitation signal;
a varactor coupled to said resonant circuit for determining a value of an operational parameter of said resonant circuit;
a decision-making circuit coupled to said varactor for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said resonant circuit for receiving the decision and conveying an adjustment instruction to said resonant circuit in response to the decision, thereby modifying the excitation signal output by said resonant circuit in response to the adjustment instruction.
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16. A method for tuning a reader of a radio frequency identification system to a specific operating environment comprising:
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outputting an excitation signal from a resonant circuit local to said reader and including an LC pair tuned to a first signal generating state;
evaluating a current of said resonant circuit at said first signal generating state;
deciding a second signal generating state for said resonant circuit in response to said evaluation step; and
retuning said resonant circuit to said second signal generating state in response to said deciding step to modify said excitation signal. - View Dependent Claims (17, 18, 19, 20)
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21. A method for tuning a reader of a radio frequency identification system to a specific operating environment comprising:
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outputting an excitation signal from a resonant circuit local to said reader and including an LC pair tuned to a first signal generating state;
evaluating a voltage of said resonant circuit at said first signal generating state;
deciding a second signal generating state for said resonant circuit in response to said evaluation step; and
retuning said resonant circuit to said second signal generating state in response to said deciding step to modify said excitation signal. - View Dependent Claims (22, 23, 24, 25)
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26. A reader for a radio frequency identification system comprising:
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a resonant circuit including an LC pair local to said reader and tuned to a first signal generating state for outputting an excitation signal;
means local to said reader for evaluating a voltage of said resonant circuit; and
means local to said reader for deciding a second signal generating state for said resonant circuit in response to said evaluation means; and
means local to said reader for retuning said resonant circuit to said second signal generating state, thereby modifying said excitation signal.
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27. A reader for a radio frequency identification system comprising:
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an exciter circuit for generating an excitation signal;
a current detector coupled to said exciter circuit for determining a value of an operational parameter of said exciter circuit;
a decision-making circuit coupled to said circuit evaluator for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said exciter circuit for receiving the decision and for conveying an adjustment instruction to said exciter circuit in response to the decision.
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28. A reader for a radio frequency identification system comprising:
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an exciter circuit for generating an excitation signal;
a voltage detector coupled to said exciter circuit for determining a value of an operational parameter of said exciter circuit;
a decision-making circuit coupled to said circuit evaluator for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said exciter circuit for receiving the decision and for conveying an adjustment instruction to said exciter circuit in response to the decision.
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29. A reader for a radio frequency identification system comprising:
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an exciter circuit for generating an excitation signal;
a varactor coupled to said exciter circuit for determining a value of an operational parameter of said exciter circuit;
a decision-making circuit coupled to said circuit evaluator for formulating a decision in response to the value of the operational parameter; and
an adjustment circuit coupled to said decision-making circuit and to said exciter circuit for receiving the decision and for conveying an adjustment instruction to said exciter circuit in response to the decision.
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30. A method for tuning a reader of a radio frequency identification system to a specific operating environment comprising:
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generating an excitation signal with an exciter circuit tuned to a first signal generating state;
evaluating a current of said exciter circuit at said first signal generating state; and
deciding a second signal generating state for said exciter circuit in response to said evaluation step.
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31. A method for tuning a reader of a radio frequency identification system to a specific operating environment comprising:
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generating an excitation signal with an exciter circuit tuned to a first signal generating state;
evaluating a voltage of said exciter circuit at said first signal generating state; and
deciding a second signal generating state for said exciter circuit in response to said evaluation step.
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32. A reader for a radio frequency identification system comprising:
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means for generating an excitation signal, wherein said generating means is tuned to a first signal generating state;
means for evaluating a current of said generating means; and
means for deciding a second signal generating state for said generating means in response to said evaluation means.
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33. A reader for a radio frequency identification system comprising:
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means for generating an excitation signal, wherein said generating means is tuned to a first signal generating state;
means for evaluating a voltage of said generating means; and
means for deciding a second signal generating state for said generating means in response to said evaluation means.
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34. A reader for a radio frequency identification system comprising:
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a resonant circuit including an LC pair local to said reader and tuned to a first signal generating state for outputting an excitation signal;
means local to said reader for evaluating a current of said resonant circuit; and
means local to said reader for deciding a second signal generating state for said resonant circuit in response to said evaluation means; and
means local to said reader for retuning said resonant circuit to said second signal generating state, thereby modifying said excitation signal.
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Specification