Low sidelobe antenna with beams steerable in one direction
First Claim
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1. An antenna for scanning beams in only one common angular direction, the antenna comprising:
- a plurality of feed elements each providing a component beam;
a plurality of fixed beam combiners for combining the component beams into fixed beams, wherein the plurality of fixed beam combiners combine the component beams in a first angular direction θ
x to form the fixed beams; and
a plurality of variable beam combiners for combining the fixed beams into scanning beams, wherein the plurality of variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams in a second angular direction θ
y corresponding to an apparent motion of a cell or user.
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Abstract
An antenna for scanning beams in only one common angular direction or angular path includes feed elements each providing a component beam and fixed beam combiners for combining the component beams into fixed beams. The fixed beam combiners combine the component beams in a first angular direction to form the fixed beams. Variable beam combiners combine the fixed beams into scanning beams. The variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams in a second common angular direction.
19 Citations
21 Claims
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1. An antenna for scanning beams in only one common angular direction, the antenna comprising:
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a plurality of feed elements each providing a component beam;
a plurality of fixed beam combiners for combining the component beams into fixed beams, wherein the plurality of fixed beam combiners combine the component beams in a first angular direction θ
x to form the fixed beams; and
a plurality of variable beam combiners for combining the fixed beams into scanning beams, wherein the plurality of variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams in a second angular direction θ
y corresponding to an apparent motion of a cell or user.- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11)
each of the component beams includes a circular polarization component beam.
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3. The antenna of claim 2 wherein:
the circular polarization component beam is a right hand circular polarization component beam.
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4. The antenna of claim 2 wherein:
the circular polarization component beam is a left hand circular polarization component beam.
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5. The antenna of claim 1 wherein:
each of the plurality of fixed beam combiners includes a plurality of weighting circuits for weighting a respective component beam and a summation unit for combining the weighted component beams into a fixed beam.
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6. The antenna of claim 1 wherein:
each of the plurality of variable beam combiners includes a plurality of weighting circuits for weighting a respective fixed beam and a summation unit for combining the weighted fixed beams into a scanning beam.
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7. The antenna of claim 6 wherein:
each of the weighting circuits of the plurality of variable beam combiners amplitude and phase weight a respective fixed beam.
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8. The antenna of claim 1 further comprising:
a splitter associated with each fixed beam combiner for splitting a fixed beam into a plurality of split fixed beams, wherein the plurality of variable beam combiners combine the split fixed beams into the scanning beams.
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9. The antenna of claim 1 wherein:
the plurality of variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams independently of one another in the second angular direction.
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10. The antenna of claim 1 wherein:
the plurality of variable claim combiners combine the fixed beams into scanning beams to scan the scanning beams in the second angular direction along a straight line.
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11. The antenna of claim 1 wherein:
the plurality of variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams in the second angular direction along a curved line.
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12. A method for scanning beams of an antenna in only one common angular direction, the method comprising:
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providing a plurality of component beams;
combining the component beams into fixed beams using a plurality of combiners including only fixed combiners, wherein the component beams are combined in a first angular direction θ
x to form the fixed beams; and
variably combining the fixed beams into scanning beams to scan the scanning beams in a second angular direction θ
y.- View Dependent Claims (13, 14, 15, 16, 17, 18, 19, 20)
each of the component beams include a circular polarization component beam.
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14. The method of claim 12 wherein:
the circular polarization component beam is a right hand circular polarization component beam.
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15. The method of claim 13 wherein:
the circular polarization component beam is a left hand circular polarization component beam.
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16. The method of claim 12 wherein combining the component beams into fixed beams comprises:
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weighting each component beam in a set of the plurality of component beams; and
combining the weighted component beams in the set of the plurality of component beams into a fixed beam.
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17. The method of claim 12 wherein variable combining the fixed beams into scanning beams comprises:
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weighting a respective fixed beam in a set of fixed beams; and
combining the weighted fixed beams in the set of fixed beams into a scanning beam.
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18. The method of claim 17 wherein weighting a respective fixed beam in a set of fixed beams comprises:
weighting an amplitude and phase of the respective fixed beam in a set of fixed beams.
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19. The method of claim 12 further comprising:
splitting a fixed beam into a plurality of split fixed beams, wherein the split fixed beams are combined into the scanning beams.
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20. The method of claim 12, wherein the second angular direction is oriented to correspond to an apparent motion of cells or users.
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21. A satellite communication system comprising:
an antenna for scanning beams in only one common angular direction, the antenna including a plurality of feed elements each providing a component beam, a plurality of fixed beam combiners for combining the component beams into fixed beams, wherein the plurality of fixed beam combiners combine the component beams in a first angular direction θ
x to form the fixed beams, and a plurality of variable beam combiners for combining the fixed beams into scanning beams, wherein the plurality of variable beam combiners combine the fixed beams into the scanning beams to scan the scanning beams in a second angular direction θ
y corresponding to an apparent motion of a cell or user.
Specification