Multiple-beam array antenna
First Claim
1. A multiple-beam receiving and transmitting antenna for use in a satellite communications system for receiving at least two reception beams and for transmitting at least two transmission beams, comprising:
- antenna means; and
beamformer means comprising;
channel means for providing beamformer reception signals and for receiving input transmission signals;
line means for providing beamformer transmission signals and for receiving input reception signals;
first establishing means for establishing which of said antenna means will contribute to the formation of each of said beamformer reception signals and which of said antenna means will contribute to the formation of each of said transmission beams; and
second establishing means for establishing the relative power contribution of said antenna means to said beamformer reception signals and the relative power contribution of said antenna means to said transmission beams;
wherein said antenna is capable of contemporaneously receiving at least two reception beams and providing at least two beamformer reception signals corresponding therewith, and wherein at least two of said antenna means contribute to the formation of at least one of said beamformer reception signals; and
wherein said antenna is capable of contemporaneously transmitting at least two transmission beams and providing at least two beamformer transmission signals corresponding therewith, and wherein at least two of said antenna means contribute to the formation of at least one of said beamformer transmission signals.
1 Assignment
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Accused Products
Abstract
An antenna capable of transmitting and/or receiving multiple beams and particularly adapted for use with satellites. In a preferred embodiment, the antenna includes a plurality of transmit channels interconnected with a first beamforming matrix. The first beamforming matrix communicates with channel preamplifiers such that two or more transmit signals can be inputted to the first beamforming matrix. The first beamforming matrix communicates with an array of transmit elements, which is preferably divided into two or more transmit subarrays. In one example of operation, two or more beams can be contemporaneously transmitted from the transmit subarrays with the at least one of the transmit subarrays contributing to the formation of at least two of the beams.
In the sme preferred embodiment, as described immediately above, the antenna includes a plurality of receive channels interconnected with a second beamforming matrix such that two or more receive signals can be outputted from the second beamforming matrix to the channel receivers. The second beamforming matrix communicates with an array of receive antenna elements which is preferably divided into two or more receive subarrays. In one example of operation, two or more beams can be contemporaneously received by the receive subarrays with at least one of the receive subarrays contributing to the reception of at least two of the beams.
In another embodiment, circulators and/or diplexers can be utilized so that common antenna elements and a common beamforming matrix can be employed for both transmission and reception. Consequently, two or more beams can be contemporaneously transmitted from and/or received at the transmit/receive antenna elements, with at least one of the subarrays contributing to the formation and/or reception of at least two of the beams.
60 Citations
15 Claims
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1. A multiple-beam receiving and transmitting antenna for use in a satellite communications system for receiving at least two reception beams and for transmitting at least two transmission beams, comprising:
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antenna means; and beamformer means comprising; channel means for providing beamformer reception signals and for receiving input transmission signals; line means for providing beamformer transmission signals and for receiving input reception signals; first establishing means for establishing which of said antenna means will contribute to the formation of each of said beamformer reception signals and which of said antenna means will contribute to the formation of each of said transmission beams; and second establishing means for establishing the relative power contribution of said antenna means to said beamformer reception signals and the relative power contribution of said antenna means to said transmission beams; wherein said antenna is capable of contemporaneously receiving at least two reception beams and providing at least two beamformer reception signals corresponding therewith, and wherein at least two of said antenna means contribute to the formation of at least one of said beamformer reception signals; and wherein said antenna is capable of contemporaneously transmitting at least two transmission beams and providing at least two beamformer transmission signals corresponding therewith, and wherein at least two of said antenna means contribute to the formation of at least one of said beamformer transmission signals. - View Dependent Claims (2, 3, 4, 5, 6, 7)
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8. A method for transmitting and receiving at least two communication beams, comprising:
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contemporaneously receiving at least two input transmission signals at channel means and contemporaneously receiving at least two reception beams at antenna means; transmitting said input transmission signals to beamforming means and transmitting input reception signals related to said reception beams to said beamforming means through line means; generating beamformer transmission signals from said input transmission signals and generating beamformer reception signals corresponding to said input reception signals, wherein at least two of said antenna means contribute to the formation of at least one of said beamformer reception signals; said step of generating including; a first step for establishing which of said antenna means will contribute to the formation of each of said transmission beams and to the formation of each of said beamformer reception signals; a second step for establishing the relative power contribution of said antenna means to said transmission beams through said line means and to said beamformer reception signals; transmitting said beamformer transmission signals to said antenna means and transmitting said beamformer reception signals to said channel means; and contemporaneously transmitting at least two transmission beams wherein at least two of said antenna means contribute to the formation of at least one of said transmission beams. - View Dependent Claims (9, 10, 11, 12, 13)
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14. A multiple-beam antenna for use on a satellite, comprising:
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beamformer means for receiving two or more input signals and providing two or more beamformer signals, said beamformer means comprising; dividing means for dividing said input transmission signals into transmission subsignals; phasing means for establishing the relative phases of said transmission subsignals; weighting means for establishing the relative power of said transmission subsignals; combining means for combining said transmission subsignals to provide said two or more beamformer transmission signals; wherein said dividing means, phasing means, weighting means and combining means are arranged in a two-dimensional matrix; amplifier means coupled to said beamformer means for amplifying said two or more beamformer signals; and antenna means coupled to said amplifier means for transmitting two or more beams, said antenna means comprising a plurality of antenna arrays, each of said arrays having a plurality of antenna elements.
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15. A multiple-beam antenna for use on a satellite, comprising:
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antenna means for receiving two or more beams and providing two or more reception signals, said antenna means comprising a plurality of antenna arrays, each of said arrays having a plurality of antenna elements; beamformer means for receiving said two or more reception signals and providing two or more output signals, said beamformer means comprising; dividing means for dividing said reception signals into reception subsignals; phasing means for establishing the relative phases of said reception subsignals; weighting means for establishing the relative power of said reception subsignals; combining means for combining said reception subsignals to provide said two or more output signals; wherein said dividing means, phasing means, weighting means and combining means are arranged in a two-dimensional matrix.
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Specification