High efficiency polarized ULF/VLF/RF transciever antenna
First Claim
1. A transmission antenna comprising:
- an elongated closed-loop core disposed in a transmission plane, the closed-loop core having a pair of opposite long segments that extend by a length in a longitudinal direction in the transmission plane, and having a pair of opposite short segments connecting with opposite ends of the long segments, the short segments extending by a width in a direction that is transverse to the longitudinal direction in the transmission plane, the elongated closed-loop core being configured such that the lengths of the long segments are greater than the widths of the short segments;
a first winding having an electrically-conductive wire transversely wound around one of the long segments of the closed-loop core;
a second winding having an electrically-conductive wire transversely wound around the opposite long segment of the closed-loop core;
a signal conditioner for sending a signal, the signal conditioner being electrically coupled to the first winding and the second winding; and
an amplifier electrically interposed between the signal conditioner and the respective windings, the amplifier configured to amplify current of the signal from the signal conditioner to the respective windings;
wherein, the first winding has 50 turns or fewer and is configured to generate a magnetic flux in a first direction along the closed-loop core when electrical current passes through the first winding;
wherein, the second winding has 50 turns or fewer and is configured to generate a magnetic flux in a second direction along the closed loop core when electrical current passes through the second winding; and
wherein the magnetic flux in the first direction is opposite the magnetic flux in the second direction for generating a polarized magnetic field and transmitting a polarized signal.
1 Assignment
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Accused Products
Abstract
A transmission antenna includes a closed-loop core having at least two electrically-conductive windings arranged on the closed-loop core. The windings are each electrically-actuated to generate a magnetic flux along the closed-loop core in opposing directions. The transmission antenna may generate a polarized magnetic field within a plane of the closed-loop core and provide broadband transmission of a polarized signal having a relatively flat frequency response. The transmission antenna is electrically-small, and the frequency of the polarized signal is nearly independent of the size of the closed-loop core. Multiple polarized signals may be provided, each being independently and continuously controlled through actuation of the windings. The direction of the polarized signal may also be varied. Additional windings for receiving a signal may simultaneously be employed on the closed-loop core. A method for transmitting a polarized signal with the transmission antenna is also provided.
13 Citations
17 Claims
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1. A transmission antenna comprising:
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an elongated closed-loop core disposed in a transmission plane, the closed-loop core having a pair of opposite long segments that extend by a length in a longitudinal direction in the transmission plane, and having a pair of opposite short segments connecting with opposite ends of the long segments, the short segments extending by a width in a direction that is transverse to the longitudinal direction in the transmission plane, the elongated closed-loop core being configured such that the lengths of the long segments are greater than the widths of the short segments; a first winding having an electrically-conductive wire transversely wound around one of the long segments of the closed-loop core; a second winding having an electrically-conductive wire transversely wound around the opposite long segment of the closed-loop core; a signal conditioner for sending a signal, the signal conditioner being electrically coupled to the first winding and the second winding; and an amplifier electrically interposed between the signal conditioner and the respective windings, the amplifier configured to amplify current of the signal from the signal conditioner to the respective windings; wherein, the first winding has 50 turns or fewer and is configured to generate a magnetic flux in a first direction along the closed-loop core when electrical current passes through the first winding; wherein, the second winding has 50 turns or fewer and is configured to generate a magnetic flux in a second direction along the closed loop core when electrical current passes through the second winding; and wherein the magnetic flux in the first direction is opposite the magnetic flux in the second direction for generating a polarized magnetic field and transmitting a polarized signal. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14)
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15. A transmission antenna comprising:
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a closed-loop core; a first winding having an electrically-conductive wire transversely wound around a first segment of the closed-loop core, the first winding being configured for generating a magnetic flux in a first direction along the closed-loop core when electrical current passes through the first winding; and a second winding having an electrically-conductive wire transversely wound around a second segment of the closed-loop core, the second winding being configured for generating a magnetic flux in a second direction along the closed loop core when electrical current passes through the second winding; wherein the magnetic flux in the first direction is opposite the magnetic flux in the second direction for generating a polarized magnetic field and transmitting a polarized signal; wherein the first winding and the second winding are arranged on the closed-loop core in magnetic symmetry; wherein the first winding and the second winding are non-overlapping; wherein the first winding and the second winding are each helically wound around the closed-loop core; and wherein the first winding and the second winding each extend along respective segments of the closed-loop core, the respective segments having a length that is less than 20% of the overall length of the closed-loop core.
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16. A transmission antenna comprising:
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a closed-loop core; a first winding having an electrically-conductive wire transversely wound around a first segment of the closed-loop core; a second winding having an electrically-conductive wire transversely wound around a second segment of the closed-loop core; a signal conditioner for sending a signal, the signal conditioner being electrically coupled to the first winding and the second winding; and an amplifier electrically interposed between the signal conditioner and the respective windings, the amplifier configured to amplify current of the signal from the signal conditioner to the respective windings; wherein, the first winding has 50 turns or fewer and is configured to generate a magnetic flux in a first direction along the closed-loop core when electrical current passes through the first winding; wherein, the second winding has 50 turns or fewer and is configured to generate a magnetic flux in a second direction along the closed loop core when electrical current passes through the second winding; wherein the magnetic flux in the first direction is opposite the magnetic flux in the second direction for generating a polarized magnetic field and transmitting a polarized signal; and wherein the closed-loop core is a toroidal core.
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17. A transmission antenna comprising:
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a closed-loop core; a first winding having an electrically-conductive wire transversely wound around a first segment of the closed-loop core, the first winding being configured for generating a magnetic flux in a first direction along the closed-loop core when electrical current passes through the first winding; and a second winding having an electrically-conductive wire transversely wound around a second segment of the closed-loop core, the second winding being configured for generating a magnetic flux in a second direction along the closed loop core when electrical current passes through the second winding; wherein the magnetic flux in the first direction is opposite the magnetic flux in the second direction for generating a polarized magnetic field; the transmission antenna further comprising; a signal conditioner for sending a signal, the signal conditioner being electrically coupled to the first winding and the second winding; and a third winding and a fourth winding electrically coupled to the signal conditioner; wherein the third winding is transversely wound with an electrically-conductive wire around a third segment of the close-loop core; wherein the fourth winding is transversely wound with an electrically-conductive wire around a fourth segment of the close-loop core; wherein the third winding and the fourth winding are each configured for generating a magnetic flux in a direction along the closed-loop core when electrical current passes through the respective third and fourth windings, the respective magnetic fluxes of the third winding and fourth winding being in opposite directions along the closed-loop core for generating a polarized magnetic field; wherein the first winding and the second winding are configured for receiving a first electrical signal waveform from the signal conditioner; wherein the third winding and the fourth winding are configured for receiving a second electrical signal waveform from the signal conditioner; and wherein the respective windings are configured for generating a polarized signal that is capable of changing direction in response to the phase-shifting between the first electrical signal and the second electrical signal.
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Specification