Transmit and receive loop antenna
First Claim
1. A far field cancelling antenna comprising:
- an electrical circuit element; and
a first antenna structure, the first antenna structure comprising;
a first loop element electrically coupled to the circuit element for generating fields; and
a shunt loop element surrounding and generally coplanar with the first loop element such that voltages are induced in the shunt loop element from the fields generated by the first loop element, the shunt loop element comprising a continuous, conductive loop to maximize current from the voltages induced therein, wherein the current in the shunt loop element generates fields which largely cancel in the far field the fields generated by the first loop element.
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Accused Products
Abstract
A transmit and receive loop antenna includes a first loop element coupled to an electrical circuit element for generating near fields and far fields and a shunt loop element surrounding the first loop element such that voltages are induced in the shunt loop element by the fields generated by the first loop element. The shunt loop element is constructed from a continuous loop of conductor to maximize current from the voltages induced in the shunt loop element. The current in the shunt loop element generates fields which largely cancel the fields generated by the first loop element in the far field. Thus, the first loop element and the shunt loop element establish a surveillance zone in an area proximate the loop elements. A second loop element, such as a figure-8 loop element may be placed proximate the first loop element and the shunt loop element for receiving electromagnetic energy radiated by a tag circuit which enters the surveillance zone. The tag circuit inside the surveillance zone may be powered by the emitted electromagnetic field of the first loop element and the shunt loop element.
112 Citations
19 Claims
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1. A far field cancelling antenna comprising:
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an electrical circuit element; and a first antenna structure, the first antenna structure comprising; a first loop element electrically coupled to the circuit element for generating fields; and a shunt loop element surrounding and generally coplanar with the first loop element such that voltages are induced in the shunt loop element from the fields generated by the first loop element, the shunt loop element comprising a continuous, conductive loop to maximize current from the voltages induced therein, wherein the current in the shunt loop element generates fields which largely cancel in the far field the fields generated by the first loop element. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16)
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17. A far field cancelling antenna comprising:
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an electrical circuit element; a first loop element electrically coupled to the circuit element for generating fields; a shunt loop element surrounding and generally coplanar with the first loop element such that voltages are induced in the shunt loop element from the fields generated by the first loop element, the shunt loop element comprising a continuous, conductive loop to maximize current from the voltages induced therein, wherein the current in the shunt loop element generates fields which largely cancel in the far field the fields generated by the first loop element; and a second loop element generally coplanar with and located proximate the shunt loop element such that coupling between the second loop element and the first loop element and the shunt loop element is minimized. - View Dependent Claims (18)
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19. In an electronic article surveillance system, a far field cancelling antenna, the antenna comprising:
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a first loop element; a transmitter circuit electrically coupled to the first loop element for generating an electrical current to flow through the first loop element in a first direction, the current generating electromagnetic fields; a shunt loop element positioned proximate to the first loop element such that an electrical current is induced in the shunt loop element from the fields generated by the first loop element, the electrical current in the shunt loop element flowing in a second direction opposite to the first direction, wherein the current in the shunt loop element generates fields which largely cancel in the far field the fields generated by the first loop element such that a surveillance zone is created in a near field; and a generally planar figure-8 loop element located proximate the shunt loop element such that coupling between the figure-8 loop element and the first loop element and the shunt loop element is minimized; and a receiver circuit electrically coupled to the figure-8 loop element for detecting magnetic resonance in the surveillance zone at a predetermined frequency and generating an alarm signal therefrom indicative of the presence of a protected article in the surveillance zone.
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Specification