In this work a 2-D electronic beam steering array is presented. The 8x8 antenna operates in the frequency range 4.4 ÷ 5 GHz. Each radiating element is connected to an independently controlled analog phase shifter, thus allowing a continuous steering of the main beam both in elevation and in azimuth. The whole antenna is realized in printed technology, and all the RF and biasing circuitry is realized on a single layer, while the radiating part is realized by an array of cavity-backed slot-fed patches, thus resulting in an extremely compact and modular solution. Preliminary measurements show the good performance achievable and confirm the beam-shaping and interference-nulling capabilities of the presented antenna system. © 2007 EuMA.
Albani, M., Cadili, T., Di Maggio, F., Gardelli, R., Incorvaia, A., Mollura, C., et al. (2007). A 2-D electronic beam steering phased array for point-multipoint communication applications. In 2007 European Radar Conference (pp.350-353) [10.1109/EURAD.2007.4405009].
A 2-D electronic beam steering phased array for point-multipoint communication applications
Albani M.;
2007-01-01
Abstract
In this work a 2-D electronic beam steering array is presented. The 8x8 antenna operates in the frequency range 4.4 ÷ 5 GHz. Each radiating element is connected to an independently controlled analog phase shifter, thus allowing a continuous steering of the main beam both in elevation and in azimuth. The whole antenna is realized in printed technology, and all the RF and biasing circuitry is realized on a single layer, while the radiating part is realized by an array of cavity-backed slot-fed patches, thus resulting in an extremely compact and modular solution. Preliminary measurements show the good performance achievable and confirm the beam-shaping and interference-nulling capabilities of the presented antenna system. © 2007 EuMA.| File | Dimensione | Formato | |
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https://hdl.handle.net/11365/1321196
