Transmit/receive distributed antenna systems
First Claim
1. A distributed antenna device comprising:
- a plurality of transmit antenna elements;
a plurality of receive antenna elements; and
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit antenna elements and mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element;
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier;
said device being configured such that said transmit antenna elements and said power amplifiers coupled thereto, and said receive antenna elements and said at least one low noise amplifier coupled thereto are continuously active and capable of simultaneous respective transmit and receive operations;
wherein said receive antenna elements are in a first linear array and said transmit antenna elements are in a second linear array spaced apart from and parallel to said first linear array; and
further including an electrically conductive center strip element positioned between the first and second linear arrays.
14 Assignments
0 Petitions
Accused Products
Abstract
A distributed antenna device includes a plurality of transmit antenna elements, a plurality of receive antenna elements and a plurality of power amplifiers. One of the power amplifiers is operatively coupled with each of the transmit antenna elements and mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element. At least one of the power amplifiers is a low noise amplifier and is built into the distributed antenna device for receiving and amplifying signals from at least one of the receive antenna elements. Each said power amplifier is a relatively low power, relatively low cost per watt linear power amplifier chip.
177 Citations
50 Claims
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1. A distributed antenna device comprising:
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a plurality of transmit antenna elements;
a plurality of receive antenna elements; and
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit antenna elements and mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element;
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier;
said device being configured such that said transmit antenna elements and said power amplifiers coupled thereto, and said receive antenna elements and said at least one low noise amplifier coupled thereto are continuously active and capable of simultaneous respective transmit and receive operations;
wherein said receive antenna elements are in a first linear array and said transmit antenna elements are in a second linear array spaced apart from and parallel to said first linear array; and
further including an electrically conductive center strip element positioned between the first and second linear arrays. - View Dependent Claims (2, 3)
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4. A distributed antenna device comprising:
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a plurality of transmit antenna elements, a plurality of receive antenna elements; and
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit antenna elements and mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element; and
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier; and
said device being configured such that said transmit antenna elements and said power amplifiers coupled thereto, and said receive antenna elements and said at least one low noise amplifier coupled thereto are continuously active and capable of simultaneous respective transmit and receive operations;
wherein said transmit antenna elements and said receive antenna elements are arranged in a single linear array in alternating order. - View Dependent Claims (5, 6)
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7. A distributed antenna device comprising:
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a plurality of transmit antenna elements;
a plurality of receive antenna elements; and
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit antenna elements and mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element; and
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier; and
said device being configured such that said transmit antenna elements and said power amplifiers coupled thereto, and said receive antenna elements and said at least one low noise amplifier coupled thereto are continuously active and capable of simultaneous respective transmit and receive operations;
wherein a single array of patch antenna elements functions as both said transmit antenna elements and said receive antenna elements, and further including a transmit feed stripline and a receive feed stripline aperture-coupled to each of said patch antenna elements, said transmit feed stripline and said receive feed stripline being oriented orthogonally to each other at least in a region where they are coupled with each said patch element. - View Dependent Claims (8, 9, 10, 11, 12, 13)
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14. A method of operating a distributed antenna comprising:
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arranging a plurality of transmit antenna elements in an array;
arranging a plurality of receive antenna elements in an array;
coupling a power amplifier with each of said transmit antenna elements mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element;
providing at least one low noise amplifier built into said distributed antenna for receiving and amplifying signals from at least one of said receive antenna elements;
simultaneously transmitting from said transmit antenna elements and receiving from said receive antenna elements;
arranging said receive antenna elements in a first linear array and arranging said transmit antenna elements in a second linear array spaced apart from and parallel to said first linear array; and
positioning an electrically conductive center strip element between the first and second linear arrays. - View Dependent Claims (15, 16)
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17. A method of operating a distributed antenna comprising:
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arranging a plurality of transmit antenna elements in an array;
arranging a plurality of receive antenna elements in an array;
coupling a power amplifier with each of said transmit antenna elements mounted closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element;
providing at least one low noise amplifier built into said distributed antenna for receiving and amplifying signals from at least one of said receive antenna elements;
simultaneously transmitting from said transmit antenna elements and receiving from said receive antenna elements; and
further including arranging said transmit antenna elements and said receive antenna elements in a single linear array in alternating order. - View Dependent Claims (18)
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19. An antenna system installation comprising a tower/support structure, and an antenna structure mounted on said tower/support structure, said antenna structure comprising:
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a plurality of antenna elements;
a plurality of power amplifiers, each power amplifier being operatively coupled with one of said antenna elements and mounted closely adjacent to the associated antenna element, such that no appreciable power loss occurs between the power am amplifier and the associated antenna element;
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier chip;
a first RF to fiber transceiver mounted on said tower/support structure and operatively coupled with said antenna structure; and
a second RF to fiber transceiver mounted adjacent a base portion of said tower/support structure and coupled with said first RF transceiver by an optical fiber cable.
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20. A method of installing an antenna system on a tower/support structure, said method comprising:
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mounting a plurality of antenna elements arranged in an antenna array on said tower/support structure;
coupling a power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier chip with each of said antenna elements mounted closely adjacent to the associated antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element; and
mounting a first RF to fiber transceiver on said tower/support structure, and coupling said first RF to fiber transceiver with said antenna structure; and
mounting a second RF to fiber transceiver adjacent a base portion of said tower/support structure, and coupling said second RF to fiber transceiver with said first RF to fiber transceiver by an optical fiber cable.
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21. A distributed flat panel antenna device comprising:
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a first dielectric surface;
a plurality of substantially flat transmit antenna elements, and a plurality of substantially flat receive antenna elements located on said first dielectric surface;
a second dielectric surface closely spaced and substantially parallel to said first dielectric surface;
at least one low noise amplifier mounted to said second dielectric surface for receiving and amplifying signals from at least one of said receive antenna elements;
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit antenna elements and mounted to said second dielectric surface closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element; and
each said power amplifier comprising a relatively low power, relatively low cost per watt linear power amplifier; and
a stripline feed network mounted to said second dielectric surface and operatively coupled with said power amplifiers and said at least one low noise amplifier, and aperture-coupled with each of said antenna elements;
said device being configured such that said transmit antenna elements and said power amplifiers coupled thereto, and said receive antenna elements and said at least one low noise amplifier coupled thereto are continuously active and capable of simultaneous respective transmit and receive operations;
wherein said transmit antenna elements are spaced apart to achieve a given beam pattern and no more than a given amount of mutual coupling, and wherein said receive antenna elements are spaced apart to achieve a given beam pattern and no more than a given amount of mutual coupling. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36)
further including a frequency diplexer operatively coupled with each said patch antenna element, said plurality of power amplifiers and said at least one low noise amplifier being coupled in circuit with said frequency diplexer.
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36. The antenna device of claim 35 wherein each said frequency diplexer has a receive output and wherein a single low noise amplifier is coupled to a summed junction of said receive outputs.
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37. A method of operating a distributed antenna comprising:
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arranging a plurality of substantially flat transmit antenna elements in an array on a first dielectric surface;
arranging a plurality of substantially flat receive antenna elements in an array on said first dielectric surface;
coupling a power amplifier with each of said transmit antenna elements and mounting said power amplifiers closely adjacent to the associated transmit antenna element, such that no appreciable power loss occurs between the power amplifier and the associated antenna element;
providing at least one low noise amplifier built into said distributed antenna for receiving and amplifying signals from at least one of said receive antenna elements;
aperture coupling a stripline feed network on a second dielectric surface with said antenna elements, and operatively coupling said stripline feed network to said power amplifiers and said at least one low noise amplifier;
simultaneously transmitting from said transmit antenna elements and receiving from said receive antenna elements; and
spacing said transmit antenna elements apart to achieve a given beam pattern and no more than a given amount of mutual coupling, and spacing said receive antenna elements apart to achieve a given beam pattern and no more than a given amount of mutual coupling. - View Dependent Claims (38, 39, 40, 41, 42, 43, 44, 45)
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46. An antenna device comprising:
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a plurality of transmit antenna elements in a linear array;
a plurality of receive antenna elements in a linear array; and
a plurality of power amplifiers, a power amplifier being operatively coupled with each of said transmit anatenna elements;
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
the transmit antenna elements and said power amplifiers coupled thereto, and the receive antenna elements and said at least one low noise amplifier coupled thereto being capable of simultaneous respective transmit and receive operations;
an electrically conductive element positioned between the linear arrays. - View Dependent Claims (47, 48)
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49. A distributed antenna device comprising:
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a plurality of transmit antenna elements;
a plurality of receive antenna elements; and
a power amplifier being operatively coupled with each of said transmit antenna elements;
at least one low noise amplifier for receiving and amplifying signals from at least one of said receive antenna elements;
said transmit antenna elements and said receive antenna elements being arranged in a single linear array in alternating order. - View Dependent Claims (50)
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Specification