Multibeam antenna which can provide different beam positions according to the angular sector of interest
First Claim
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1. A multibeam antenna system for providing a plurality of different beam positions in the entire 0°
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azimuth hemispace, the system comprising three separate subarrays which comprise the same number of radiating elements and are arranged to transmit signals in a respective one of three angle sectors covering the whole hemispace, one beam forming network which includes a power splitter (2) having a number of outputs corresponding to the number of radiating elements in each subarray and delay line phase shifters (3) respectively coupled to each one of the power splitter outputs, a subarray selector (4) coupled between the delay line phase shifter (3) and said subarrays (5,6,7), and a pilot circuit (8) wherein said pilot circuit (8) controls the delay line phase shifters (3) and the subarray selector (4) to delay the signal supplied from the phase shifters to the corresponding radiating element of a selected one of said subarrays (5,6,7) in such a way that said selected subarray transmits a signal of higher RF power in the desired direction, wherein each subarray comprises a phase correcting dielectric lens (9) located over the radiating elements and a polarization converter (10) in line with the lens to provide directivity in the vertical plane for providing sufficient gain for each beam to establish the necessary effective radiating power.
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Abstract
A multibeam antenna, which has a high switching capability with high RF power levels, consisting of three subarrays (5,6,7) which suitably spaced, assure angular coverage in the azimuth hemispace from 0° to 180°. A single beam forming network (2, 3) provides each subarray with the correct field amplitude and phase distribution. Switching is performed electronically.
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2 Claims
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1. A multibeam antenna system for providing a plurality of different beam positions in the entire 0°
- -180°
azimuth hemispace, the system comprising three separate subarrays which comprise the same number of radiating elements and are arranged to transmit signals in a respective one of three angle sectors covering the whole hemispace, one beam forming network which includes a power splitter (2) having a number of outputs corresponding to the number of radiating elements in each subarray and delay line phase shifters (3) respectively coupled to each one of the power splitter outputs, a subarray selector (4) coupled between the delay line phase shifter (3) and said subarrays (5,6,7), and a pilot circuit (8) wherein said pilot circuit (8) controls the delay line phase shifters (3) and the subarray selector (4) to delay the signal supplied from the phase shifters to the corresponding radiating element of a selected one of said subarrays (5,6,7) in such a way that said selected subarray transmits a signal of higher RF power in the desired direction, wherein each subarray comprises a phase correcting dielectric lens (9) located over the radiating elements and a polarization converter (10) in line with the lens to provide directivity in the vertical plane for providing sufficient gain for each beam to establish the necessary effective radiating power. - View Dependent Claims (2)
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Specification