Electronic article surveillance tag and method for implementing same
First Claim
1. A tag for use in an electronic article surveillance system of the type comprising a transmitter-receiver arrangement disposed aside a area to be controlled for transmitting a first high-frequency signal into said area, a transmitter disposed aside said area and generating a second frequency signal of substantially lower frequency than said first frequency for establishing in said area an electrostatic field, a tag for attachment to an article to be subject to surveillance, said tag being responsive to the incidence thereon of energy of both said first and second frequencies to transmit a composite thereof and receiver apparatus disposed aside said area for receipt and detection of such composite signal and for generation of an output signal indicative of such detection, said tag comprising:
- (a) antenna means for receiving said first and second transmitted signals and for transmitting said composite signal;
(b) nonlinear circuit means for connection electrically with said antenna means and responsive to energy derived from said second transmitted signal received by said antenna means to exhibit electrical reactance change with change of voltage of said energy; and
(c) electrical power supply means connected to said antenna means and said nonlinear circuit means and operative to enhance said electrical reactance change of said nonlinear circuit means.
3 Assignments
0 Petitions
Accused Products
Abstract
In a method for enhancing the performance of tags for use in an electronic article surveillance system of the type comprising a transmitter-receiver arrangement disposed aside an area to be controlled for transmitting a first high-frequency signal into the area, a transmitter disposed aside the area and generating a second frequency signal of substantially lower frequency than the first frequency for establishing in the area an electrostatic field, a tag for attachment to an article to be subject to surveillance, the tag being responsive to the incidence thereon of energy of both the first and second frequencies to transmit a composite thereof and receiver apparatus disposed aside the area for receipt and detection of such composite signal and for generation of an output signal indicative of such detection, the method involving the steps of: configuring the tag with an antenna for receiving the first and second transmitted signals and for transmitting the composite signal; and a nonlinear circuit for connection electrically with the antenna and responsive to energy derived from the second transmitted signal received by the antenna to exhibit electrical reactance change with change of voltage of the energy; and applying an electrical bias of steady-state nature to the tag dependently on consideration of characteristics of the nonlinear circuit to enhance the electrical reactance change thereof responsively to the energy derived form the second transmitted signal received by the antenna. The considered characteristics of the nonlinear circuit are selected to be a dC/dV slope factor, a 1/c2 factor and a DC-impedance factor. The nonlinear circuit is selected to be a diode.
38 Citations
35 Claims
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1. A tag for use in an electronic article surveillance system of the type comprising a transmitter-receiver arrangement disposed aside a area to be controlled for transmitting a first high-frequency signal into said area, a transmitter disposed aside said area and generating a second frequency signal of substantially lower frequency than said first frequency for establishing in said area an electrostatic field, a tag for attachment to an article to be subject to surveillance, said tag being responsive to the incidence thereon of energy of both said first and second frequencies to transmit a composite thereof and receiver apparatus disposed aside said area for receipt and detection of such composite signal and for generation of an output signal indicative of such detection, said tag comprising:
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(a) antenna means for receiving said first and second transmitted signals and for transmitting said composite signal; (b) nonlinear circuit means for connection electrically with said antenna means and responsive to energy derived from said second transmitted signal received by said antenna means to exhibit electrical reactance change with change of voltage of said energy; and (c) electrical power supply means connected to said antenna means and said nonlinear circuit means and operative to enhance said electrical reactance change of said nonlinear circuit means. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17)
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18. In combination in an electronic article surveillance tag:
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(a) a reradiator element; (b) a nonlinear element connected electrically to said reradiator element; (c) an electrical ground plane member connected electrically to said nonlinear element; and (d) electrical power supply means connected to said reradiator element and said nonlinear element, said reradiator element, said nonlinear element and said ground plane member being in electrical series circuit connection, said reradiator element and said ground plane member defining a monopole antenna upon incidence on said tag of high frequency energy for reradiation of said high frequency energy. - View Dependent Claims (19, 20, 21, 22, 23, 24, 25, 26)
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27. In combination in an electronic article surveillance tag:
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(a) antenna means of generally rectangular configuration comprising first circuit elements extending longitudinally of the tag and of first transverse dimension, second circuit elements extending longitudinally of the tag at least in part jointly with a respective first circuit element and of second transverse dimension substantially exceeding the first transverse dimension; (b) nonlinear circuit means connected in electrical series circuit with the first and second circuit elements; and (c) electrical power supply means electrically connected with said nonlinear circuit means for imparting bias thereto. - View Dependent Claims (28, 29, 30, 31, 32)
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33. A method for enhancing the performance of tags for use in an electronic article surveillance system of the type comprising a transmitter-receiver arrangement disposed aside an area to be controlled for transmitting a first high-frequency signal into said area, a transmitter disposed aside said area and generating a second frequency signal of substantially lower frequency than said first frequency for establishing in said area an electrostatic field, a tag for attachment to an article to be subject to surveillance, said tag being responsive to the incidence thereon of energy of both said first and second frequencies to transmit a composite thereof and receiver apparatus disposed aside said area for receipt and detection of such composite signal and for generation of an output signal indicative of such detection, involving the steps of:
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(a) configuring said tag with; (1) antenna means for receiving said first and second transmitted signals and for transmitting said composite signal; and (2) nonlinear circuit means for connection electrically with said antenna means and responsive to energy derived from said second transmitted signal received by said antenna means to exhibit electrical reactance change with change of voltage of said energy; and (b) applying an electrical bias of steady-state nature to said tag dependently on consideration of characteristics of said nonlinear circuit means to enhance said electrical reactance change thereof responsively to said energy derived from said second transmitted signal received by said antenna means. - View Dependent Claims (34, 35)
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Specification