Method and arrangement for detecting adjacent transponders
First Claim
1. A method for interrogating remote transponders, said method comprising the steps of:
- a) sending an RF interrogation pulse from an interrogator;
b) receiving by a first and second transponder said RF interrogation pulse;
c) terminating said RF interrogation pulse;
d) sensing in said first transponder termination of said RF interrogation pulse;
e) initiating in said first transponder an RF response having a selected duration;
f) sensing in said first transponder RF signals from said second transponder; and
g) modifying the duration of said RF response in said first transponder upon detection of said RF signals from said second transponder.
3 Assignments
0 Petitions
Accused Products
Abstract
A method for interrogating remote transponders having the steps of: sending an RF interrogation pulse from an interrogator (10), receiving by a first and second transponder (12,12a) the RF interrogation pulse, and establishing in a resonant circuit (130) of each of the transponders (12,12a) an oscillation, the oscillation being established by the coupling of signal energy from the RF interrogation pulse into the resonant circuit (130). After the RF interrogation pulse ends, the first transponder (12) senses the termination of the pulse and initiates a first RF response having a selected duration. A second RF response from the second transponder (12a) will also be detected in the first transponder (12) whose response will be affected by this second RF response. The differing response times in the first transponder (12) for responses affected and unaffected by neighboring transponders may be sensed in the interrogator so the interrogator may detect instances in which the RF responses which it received may have been conflicting.
29 Citations
16 Claims
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1. A method for interrogating remote transponders, said method comprising the steps of:
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a) sending an RF interrogation pulse from an interrogator; b) receiving by a first and second transponder said RF interrogation pulse; c) terminating said RF interrogation pulse; d) sensing in said first transponder termination of said RF interrogation pulse; e) initiating in said first transponder an RF response having a selected duration; f) sensing in said first transponder RF signals from said second transponder; and g) modifying the duration of said RF response in said first transponder upon detection of said RF signals from said second transponder. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9)
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10. A method for interrogating remote transponders, said method comprising the steps of:
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a) sending an RF interrogation pulse from an interrogator; b) providing a first and a second transponder in proximity to said interrogator, each of said first and second transponder having a resonant circuit comprising the parallel combination of a coil and a capacitor; c) receiving by the coil of each of said transponders said RF interrogation pulse; d) establishing in said resonant circuit of each of said transponders an oscillation, said oscillation being established by the coupling of signal energy from said RF interrogation pulse into said resonant circuit; e) terminating said RF interrogation pulse from said interrogator; f) sensing in said first transponder termination of said RF interrogation pulse; g) initiating in said first transponder an RF response having a selected duration; h) sensing destructive interference between said oscillation established in the resonant circuit of said first transponder and RF signals from said second transponder; i) modifying the duration of said RF response in said first transponder; and j) receiving said RF response by said interrogator and analyzing the duration thereof to determine said first and second transponders are within proximity of said interrogator.
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11. An arrangement for interrogating remote transponders, said arrangement comprising:
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a) an interrogator, said interrogator operable to send an RF interrogation pulse and to receive an RF response; b) a first and a second transponder in proximity to said interrogator, at least said first transponder having a resonant circuit, said resonant circuit operable to receive said RF interrogations from said interrogator and to establish an oscillation therein from the signal energy within said RF interrogation pulse; c) a transponder end-of-burst detector in electrical communication with said resonant circuit for detecting the end of the RF interrogation pulse; d) a transponder transmitter in electrical communication with said end-of-burst detector for transmitting an RF response to said RF interrogator; e) a transponder counter for determining when the response message from said transponder is complete and for disabling said transmitter; and f) a response signal detector in said transponder for detecting responses from adjacent transponders and resetting said transponder counter. - View Dependent Claims (12, 13, 14, 15, 16)
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Specification
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- Resources
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Current AssigneeTexas Instruments, Inc.
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Original AssigneeTexas Instruments Deutschland Gesellschaft Mit Beschrã¤Nkter Haftung (Texas Instruments, Inc.)
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InventorsSchuermann, Josef H.
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Primary Examiner(s)ELDRED, JOHN W
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Application NumberUS08/105,538Time in Patent Office790 DaysField of Search342/40, 342/42, 342/44, 342/50, 342/51US Class Current342/42CPC Class CodesG01S 13/758 using a signal generator po...G06K 7/0008 General problems related to...G06K 7/10039 interrogator driven, i.e. s...
