Multiple Beams From Planar Arrays

Author

Angeletti, P.

Author_Institution

Eur. Space Agency, Noordwijk, Netherlands

Volume

62

Issue

4

fYear

2014

fDate

41730

Firstpage

1750

Lastpage

1761

Abstract

The paper describes a general theory of Multiple Beams from Planar Arrays establishing necessary and sufficient conditions for admitting a realizable lossless beamforming network. The developed theory applies concepts deriving from the Whittaker-Kotelnikov-Shannon (WKS) sampling theory, and from its multidimensional extension due to Miyakawa- Petersen- Middleton (MPM), to the problem of generating simultaneous multiple beams from planar phased arrays with generic periodicity and layout. It is proven that the multiple beams positions must satisfy certain reciprocal lattice conditions and that the phase steering vectors of the lossless beamforming network must correspond to the multi-dimensional discrete Fourier transform (MD-DFT). The nontrivial Hermitian orthogonality of the steering vectors, as well as of the multiple beams, is also proven.

Keywords

antenna phased arrays; array signal processing; beam steering; discrete Fourier transforms; planar antenna arrays; Miyakawa- Petersen- Middleton theory; Whittaker-Kotelnikov-Shannon sampling theory; lossless beamforming network; multidimensional discrete Fourier transform; multiple beam theory; nontrivial Hermitian orthogonality; phase steering vector; planar arrays; planar phased arrays; reciprocal lattice conditions; Array antennas; beamforming networks; lossless multi-port networks; multi-dimensional discrete Fourier transform; multiple beams; phased arrays; planar arrays; sampling theory;

fLanguage

English

Journal_Title

Antennas and Propagation, IEEE Transactions on

Publisher

ieee

ISSN

0018-926X

Type

jour

DOI

10.1109/TAP.2013.2267198

Filename

6527296