Transponder systems for automatic identification purposes
First Claim
1. A method of communicating between an interrogator and a plurality of transponders, at least a first and a second of said transponders separately located within a first and a second vehicle travelling within a first and a second traffic lane, respectively, the method comprising the steps of:
- a) providing a first and a second LF antenna associated with and in proximity to said first and said second traffic lane, respectively;
b) transmitting from each of said first and second LF antennas a continuous LF subcarrier to serve as a clock signal for each antenna'"'"'s associated transponder;
c) sending a wake-up signal by each of said LF antennas to its associated transponder;
d) sending a unique lane code by each of said LF antennas to its associated transponder;
e) storing said unique lane code in a memory in each of said transponders; and
f) sending a UHF response by each of said transponders in a pre-determined, mutually exclusive, time period depending on said unique lane code stored in each of said transponders whereby interference between responding transponders is avoided.
3 Assignments
0 Petitions
Accused Products
Abstract
A method of communicating between an interrogator (10) and at least a first and second transponder (12). The transponders (12) are separately located within a first and a second vehicle (20) travelling within a first and a second traffic lane, respectively. The method has the steps of providing a first and a second LF antenna (16) associated with and proximity to a first and a second traffic lane, respectively. From each of the first and second LF antennas (16) a continuous LF subcarrier is transmitted to serve as a clock signal for each antenna'"'"'s associated transponder (12). Initially, a wake-up signal is sent by each of the LF antennas (16) to its associated transponder (12). Following the wake-up signal, a unique lane code is sent by each of the LF antennas (16) to its associated transponder (12). The transponder (12) stores its unique lane code in its memory (70). The transponder then sends a UHF response in a pre-determined time period depending on the unique lane code stored in each of the transponders (12). The time period in which the transponder (12) sends its UHF response is unique to that transponder (12) so that interference between responding transponders (12)is avoided. Other devices, systems and methods are also disclosed.
289 Citations
19 Claims
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1. A method of communicating between an interrogator and a plurality of transponders, at least a first and a second of said transponders separately located within a first and a second vehicle travelling within a first and a second traffic lane, respectively, the method comprising the steps of:
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a) providing a first and a second LF antenna associated with and in proximity to said first and said second traffic lane, respectively; b) transmitting from each of said first and second LF antennas a continuous LF subcarrier to serve as a clock signal for each antenna'"'"'s associated transponder; c) sending a wake-up signal by each of said LF antennas to its associated transponder; d) sending a unique lane code by each of said LF antennas to its associated transponder; e) storing said unique lane code in a memory in each of said transponders; and f) sending a UHF response by each of said transponders in a pre-determined, mutually exclusive, time period depending on said unique lane code stored in each of said transponders whereby interference between responding transponders is avoided. - View Dependent Claims (2, 3, 4, 5, 6)
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7. A method of communicating between an interrogator and a plurality of transponders, at least a first and a second of said transponders separately located within a first and a second area, comprising the steps of:
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a) providing a first and a second LF antenna associated with and in proximity to said first and said second area, respectively; b) transmitting from each of said first and second LF antennas a continuous LF sub-carrier to serve as a clock signal for each antenna'"'"'s associated transponder; c) sending a unique area code by each of said LF antennas to its associated transponder; and d) sending a UHF response by each of said transponders in a pre-determined, mutually exclusive, time period depending on said unique area code whereby interference between responding transponders is avoided. - View Dependent Claims (8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18)
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19. A method of communicating between an interrogator and a plurality of transponders, at least a first and a second of said transponders separately located within a first and a second area, comprising the steps of:
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a) providing a first and a second LF antenna associated with and proximity to said first and said second area, respectively, said first and second LF antenna operating under control of a first and second interrogator, respectively; b) transmitting from each of said first and second LF antennas a continuous LF sub-carrier to serve as a clock signal for each antenna'"'"'s associated transponder; c) sending a wake-up signal by each of said LF antennas to its associated transponder wherein said first and second interrogator transmit their wake-up pulses simultaneously whereby said first and second transponders have a common temporal reference; d) sending a unique area code by each of said interrogators to its associated transponder; and e) sending a UHF response by each of said transponders in a pre-determined, mutually exclusive, time period depending on said unique area code whereby interference between responding transponders is avoided.
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Specification