Partially deployed active phased array antenna array system
First Claim
1. An antenna system comprising:
- a deployed antenna comprising a plurality of antenna elements operable to transmit or receive a radio frequency signal;
a beamformer mounted in a body of the spacecraft operable to process a radio frequency signal or an intermediate frequency signal; and
a transmission medium operable to communicate the radio frequency signal or the intermediate frequency signal between the beamformer and the deployed antenna.
1 Assignment
0 Petitions
Accused Products
Abstract
A partially deployed antenna array system that provides many beams per array and also reduces the amount of expensive advanced high density packaging that is required. The beamforming circuitry is located on the spacecraft bus, while the frequency converters, amplifiers, and antenna elements are deployed. The antenna array system for a spacecraft comprises a deployed antenna comprising a plurality of antenna elements operable to transmit or receive a radio frequency signal, a beamformer mounted in the body of the spacecraft operable to process a radio frequency signal or an intermediate frequency signal, and a transmission medium operable to communicate the radio frequency signal or the intermediate frequency signal between the beamformer and the deployed antenna. The transmission medium may comprise a fiber-optic link or alternatively may comprise a coaxial cable. The deployed antenna may comprise a plurality of antenna tiles.
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Citations
60 Claims
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1. An antenna system comprising:
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a deployed antenna comprising a plurality of antenna elements operable to transmit or receive a radio frequency signal;
a beamformer mounted in a body of the spacecraft operable to process a radio frequency signal or an intermediate frequency signal; and
a transmission medium operable to communicate the radio frequency signal or the intermediate frequency signal between the beamformer and the deployed antenna. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 52, 53)
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2. The antenna system of claim 1, wherein the transmission medium comprises a fiber-optic link.
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3. The antenna system of claim 2, wherein the fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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4. The antenna system of claim 3, wherein the deployed antenna comprises at least one antenna tile.
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5. The antenna system of claim 1, wherein the deployed antenna comprises at least one antenna tile.
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6. The antenna system of claim 5, wherein the transmission medium comprises a fiber-optic link.
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7. The antenna system of claim 6, wherein the fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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8. The antenna system of claim 1, wherein the deployed antenna is transmitting a radio frequency signal and the beamformer is a radio frequency beamformer and wherein:
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the transmission medium comprises a fiber-optic link comprising;
a first converter coupled to the beamformer and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the antenna operable to receive the light signal and to convert the light signal to an output radio frequency signal; and
the antenna further comprises;
a power amplifier operable to receive the radio frequency signal from the second converter and to amplify the radio frequency signal, a filter operable to filter the amplified radio frequency signal and output the filtered radio frequency signal, and an antenna element operable to receive the filtered radio frequency signal and to radiate the filtered radio frequency signal.
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9. The antenna system of claim 8, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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10. The antenna system of claim 9, wherein the deployed antenna comprises at least one antenna tile.
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11. The antenna system of claim 1, wherein the deployed antenna is transmitting a radio frequency signal and the beamformer is an intermediate frequency beamformer and wherein:
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the transmission medium comprises a fiber-optic link comprising;
a first converter coupled to the beamformer and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the antenna operable to receive the light signal and to convert the light signal to an output intermediate frequency signal; and
the antenna further comprises;
an up-converter operable to receive the intermediate frequency signal from the second converter, convert the intermediate frequency signal to a radio frequency signal, and output the radio frequency signal to the power amplifier, a power amplifier operable to amplify the radio frequency signal, a filter operable to filter the amplified radio frequency signal and output the filtered radio frequency signal, and an antenna element operable to receive the filtered radio frequency signal and to radiate the filtered radio frequency signal.
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12. The antenna system of claim 11, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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13. The antenna system of claim 12, wherein the deployed antenna comprises at least one antenna tile.
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14. The antenna system of claim 1, wherein the deployed antenna is receiving a radio frequency signal and the beamformer is a radio frequency beamformer and wherein:
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the antenna further comprises;
an antenna element operable to receive the radio frequency signal and output the radio frequency signal, a filter operable to receive the radio frequency signal from the antenna element, filter the radio frequency signal, and output the filtered radio frequency signal, and an amplifier operable to receive the radio frequency signal from the filter, amplify the radio frequency signal, and output an amplified radio frequency signal; and
the transmission medium comprises a fiber-optic link comprising;
a first converter coupled to the amplifier and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output radio frequency signal.
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15. The antenna system of claim 14, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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16. The antenna system of claim 15, wherein the deployed antenna comprises at least one antenna tile.
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17. The antenna system of claim 1, wherein the deployed antenna is receiving a radio frequency signal and the beamformer is an intermediate frequency beamformer and wherein:
the antenna further comprises;
an antenna element operable to receive the radio frequency signal and output the radio frequency signal, a filter operable to receive the radio frequency signal from the antenna element, filter the radio frequency signal, and output the filtered radio frequency signal, an amplifier operable to receive the radio frequency signal from the filter, amplify the radio frequency signal, and output an amplified radio frequency signal, a down-converter operable to receive the amplified radio frequency signal from the amplifier, convert the radio frequency signal to an intermediate frequency signal, and output the intermediate frequency signal; and
the transmission medium comprises a fiber-optic link comprising;
a first converter coupled to the down-converter and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output intermediate frequency signal.
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18. The antenna system of claim 17, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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19. The antenna system of claim 18, wherein the deployed antenna comprises at least one antenna tile.
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20. The antenna system of claim 1, wherein the transmission medium comprises a coaxial cable.
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52. The spacecraft of claim 51, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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53. The spacecraft of claim 52, wherein each antenna comprises at least one antenna tile.
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2. The antenna system of claim 1, wherein the transmission medium comprises a fiber-optic link.
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21. An antenna array system comprising:
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a deployed antenna array comprising a plurality of antennas operable to transmit or receive a radio frequency signal;
a beamformer mounted in a body of the spacecraft operable to process a radio frequency signal or an intermediate frequency signal; and
a transmission medium operable to communicate the radio frequency signal or the intermediate frequency signal between the beamformer and the deployed antenna. - View Dependent Claims (22, 23, 24, 25, 26, 27, 28, 29, 30, 31, 32, 33, 34, 35, 36, 37, 38, 39, 40)
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22. The antenna array system of claim 21, wherein the transmission medium comprises a plurality of fiber-optic links.
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23. The antenna array system of claim 22, wherein each fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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24. The antenna array system of claim 23, wherein each antenna comprises at least one antenna tile.
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25. The antenna array system of claim 21, wherein each antenna comprises at least one antenna tile.
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26. The antenna array system of claim 25, wherein the transmission medium comprises a plurality of fiber-optic links.
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27. The antenna array system of claim 26, wherein each fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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28. The antenna array system of claim 21, wherein the deployed antenna is transmitting radio frequency signals and the beamformer is a radio frequency beamformer and wherein:
the transmission medium comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the beamformer and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to an antenna and operable to receive the light signal and to convert the light signal to an output radio frequency signal; and
each antenna comprises;
a plurality of power amplifiers, each power amplifier operable to receive a radio frequency signal from a second converter and to amplify the radio frequency signal, a plurality of filters, each filter operable to filter an amplified radio frequency signal from a power amplifier, and a plurality of antenna elements, each antenna element operable to radiate the filtered radio frequency signal.
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29. The antenna array system of claim 28, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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30. The antenna array system of claim 29, wherein each antenna comprises at least one antenna tile.
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31. The antenna array system of claim 21, wherein the deployed antenna is transmitting a radio frequency signal and the beamformer is an intermediate frequency beamformer and wherein:
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the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the beamformer and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to an antenna and operable to receive the light signal and to convert the light signal to an output intermediate frequency signal; and
each antenna comprises;
a plurality of up-converters, each up-converter operable to receive an intermediate frequency signal from a second converter and convert the intermediate frequency signal to a radio frequency signal, a plurality of power amplifiers, each power amplifier operable to amplify a radio frequency signal, a plurality of filters, each filter operable to filter an amplified radio frequency signal, and a plurality of antenna elements, each antenna element operable to transmit a filtered radio frequency signal.
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32. The antenna array system of claim 31, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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33. The antenna array system of claim 32, wherein each antenna comprises at least one antenna tile.
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34. The antenna array system of claim 21, wherein the deployed antenna is receiving radio frequency signals and the beamformer is a radio frequency beamformer and wherein:
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each antenna comprises;
a plurality of antenna elements, each antenna element operable to receive a radio frequency signal, a plurality of filters, each filter operable to receive a radio frequency signal from an antenna element, filter the amplified radio frequency signal, and output the filtered radio frequency signal, and a plurality of amplifiers, each amplifier operable to receive a radio frequency signal from a filter, amplify the radio frequency signal, and output an amplified radio frequency signal; and
the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the amplifier and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output radio frequency signal.
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35. The antenna array system of claim 34, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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36. The antenna array system of claim 35, wherein each antenna comprises at least one antenna tile.
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37. The antenna array system of claim 21, wherein the deployed antenna is receiving radio frequency signals and the beamformer is an intermediate frequency beamformer and wherein:
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each antenna comprises;
a plurality of antenna elements, each antenna element operable to receive a radio frequency signal, a plurality of filters, each filter operable to receive a radio frequency signal from an antenna element, filter the amplified radio frequency signal, and output the filtered radio frequency signal, a plurality of amplifiers, each amplifier operable to receive a radio frequency signal from a filter, amplify the radio frequency signal, and output an amplified radio frequency signal, and a plurality of down-converters operable to receive an amplified radio frequency signal from an amplifier, convert the radio frequency signal to an intermediate frequency signal, and output the intermediate frequency signal; and
the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the down-converter and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output intermediate frequency signal.
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38. The antenna array system of claim 37, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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39. The antenna array system of claim 38, wherein each antenna comprises at least one antenna tile.
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40. The antenna array system of claim 21, wherein the transmission medium comprises a coaxial cable.
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22. The antenna array system of claim 21, wherein the transmission medium comprises a plurality of fiber-optic links.
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41. A spacecraft comprising:
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a deployed antenna array comprising a plurality of antennas operable to transmit or receive a radio frequency signal;
a beamformer mounted in a body of the spacecraft operable to process a radio frequency signal or an intermediate frequency signal; and
a transmission medium operable to communicate the radio frequency signal or the intermediate frequency signal between the beamformer and the deployed antenna. - View Dependent Claims (42, 43, 44, 45, 46, 47, 48, 49, 50, 51, 54, 55, 56, 57, 58, 59, 60)
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42. The spacecraft of claim 41, wherein the transmission medium comprises a plurality of fiber-optic links.
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43. The spacecraft of claim 42, wherein each fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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44. The spacecraft of claim 43, wherein each antenna comprises at least one antenna tile.
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45. The spacecraft of claim 41, wherein each antenna comprises at least one antenna tile.
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46. The spacecraft of claim 45, wherein the transmission medium comprises a plurality of fiber-optic links.
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47. The spacecraft of claim 46, wherein each fiber-optic link comprises:
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a first converter operable to receive the radio frequency signal or the intermediate frequency signal, convert the radio frequency signal or the intermediate frequency signal to a light signal and to output the light signal;
a fiber-optic cable operable to transmit the light signal between the beamformer and the antenna; and
a second converter operable to receive the light signal, convert the light signal to recover the radio frequency signal or the intermediate frequency signal, and to output the radio frequency signal or the intermediate frequency signal.
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48. The spacecraft of claim 41, wherein the deployed antenna is transmitting radio frequency signals and the beamformer is a radio frequency beamformer and wherein:
the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the beamformer and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to an antenna and operable to receive the light signal and to convert the light signal to an output radio frequency signal; and
each antenna comprises;
a plurality of power amplifiers, each power amplifier operable to receive a radio frequency signal from a second converter and to amplify the radio frequency signal, a plurality of filters, each filter operable to filter an amplified radio frequency signal from a power amplifier, and a plurality of antenna elements, each antenna element operable to transmit the a filtered radio frequency signal.
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49. The spacecraft of claim 48, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs and an output, each output connected to a fiber optic link, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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50. The spacecraft of claim 49, wherein each antenna comprises at least one antenna tile.
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51. The spacecraft of claim 41, wherein the deployed antenna is transmitting a radio frequency signal and the beamformer is an intermediate frequency beamformer and wherein:
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the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the beamformer and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to an antenna and operable to receive the light signal and to convert the light signal to an output intermediate frequency signal; and
each antenna comprises;
a plurality of up-converters, each up-converter operable to receive an intermediate frequency signal from a second converter and convert the intermediate frequency signal to a radio frequency signal, a plurality of power amplifiers, each power amplifier operable to amplify a radio frequency signal, a plurality of filters, each filter operable to filter an amplified radio frequency signal, and a plurality of antenna elements, each antenna element operable to transmit a filtered radio frequency signal.
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54. The spacecraft of claim 41, wherein the deployed antenna is receiving radio frequency signals and the beamformer is a radio frequency beamformer and wherein:
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each antenna comprises;
a plurality of antenna elements, each antenna element operable to receive a radio frequency signal, a plurality of filters, each filter operable to receive a radio frequency signal from an antenna element, filter the amplified radio frequency signal, and output the filtered radio frequency signal, and a plurality of amplifiers, each amplifier operable to receive a radio frequency signal from a filter, amplify the radio frequency signal, and output an amplified radio frequency signal; and
the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the amplifier and operable to convert an input radio frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output radio frequency signal.
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55. The spacecraft of claim 54, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive a radio frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive a radio frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive radio frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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56. The spacecraft of claim 55, wherein each antenna comprises at least one antenna tile.
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57. The spacecraft of claim 41, wherein the deployed antenna is receiving radio frequency signals and the beamformer is an intermediate frequency beamformer and wherein:
each antenna comprises;
a plurality of antenna elements, each antenna element operable to receive a radio frequency signal, a plurality of filters, each filter operable to receive a radio frequency signal from an antenna element, filter the amplified radio frequency signal, and output the filtered radio frequency signal, a plurality of amplifiers, each amplifier operable to receive a radio frequency signal from a filter, amplify the radio frequency signal, and output an amplified radio frequency signal a plurality of down-converters operable to receive an amplified radio frequency signal from an amplifier, convert the radio frequency signal to an intermediate frequency signal, and output the intermediate frequency signal; and
the transmission link comprises a plurality of fiber-optic links, each fiber optic link comprising;
a first converter coupled to the down-converter and operable to convert an input intermediate frequency signal to a light signal and to output the light signal, a fiber-optic cable operable to transmit the light signal, and a second converter coupled to the beamformer operable to receive the light signal and to convert the light signal to an output intermediate frequency signal.
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58. The spacecraft of claim 57, wherein the beamformer comprises:
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a plurality of power dividers, each power divider having a plurality of outputs, each power divider operable to receive an intermediate frequency signal from a fiber optic link, divide the received signal into a plurality of signals and output the plurality of divided signals;
a plurality of phase and amplitude control circuits, each circuit operable to receive an intermediate frequency signal from a power divider, set the phase and amplitude of the signal to a desired value and output the phase shifted and attenuated signal;
a plurality of power combiner circuits, each power combiner circuit having a plurality of inputs, each power combiner circuit operable to receive intermediate frequency signals from a plurality of phase and amplitude control circuits, combine these signals into a composite signal, and output the composite signal;
wherein the plurality of power dividers, phase and amplitude control circuits and power combiners are arranged so that one of the plurality of outputs from each power divider is connected through a phase and amplitude control circuit to one of the plurality of inputs of each of the plurality of power combiners; and
wherein one of the plurality of inputs to each power combiner is connected through a phase and amplitude control circuit to one of the plurality of outputs of each of the plurality power dividers.
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59. The spacecraft of claim 58, wherein each antenna comprises at least one antenna tile.
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60. The spacecraft of claim 41, wherein the transmission medium comprises a coaxial cable.
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42. The spacecraft of claim 41, wherein the transmission medium comprises a plurality of fiber-optic links.
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Specification
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Current AssigneeLockheed Martin Corporation (Martin Marietta Corporation)
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Original AssigneeLockheed Martin Corporation (Martin Marietta Corporation)
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InventorsLopacki, John Charles, Lier, Erik, Jacomb-Hood, Anthony W.
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Application NumberUS09/921,130Publication NumberTime in Patent OfficeDaysField of SearchUS Class Current342/368CPC Class CodesH01Q 1/288 Satellite antennasH01Q 21/06 Arrays of individually ener...H01Q 25/00 Antennas or antenna systems...H01Q 3/26 varying the relative phase ...H01Q 3/2676 Optically controlled phased...