An efficient probe-compensated near-field-far-field (NF-FF) transformation with a noncoventional scanning optimized for flat antennas under test (AUTs) is here developed. It relies on the nonredundant sampling representations of the electromagnetic fields and on the optimal sampling interpolation expansions, and considers a flat AUT as enclosed in a dish having diameter equal to its maximum dimension. Since the number of needed NF samples is related to the area of surface enclosing the AUT, it results significantly reduced with respect to the use of the other AUT modelings available for quasi-planar AUTs and based on the oblate spheroid and the double bowl. Numerical results assessing the effectiveness of the proposed NF-FF transformation are shown.
A NF-FF Transformation with Planar Wide-Mesh Scanning Optimized for Flat Antennas
D'Agostino, Francesco;Ferrara, Flaminio;Gennarelli, Claudio;Guerriero, Rocco;Migliozzi, Massimo
2021-01-01
Abstract
An efficient probe-compensated near-field-far-field (NF-FF) transformation with a noncoventional scanning optimized for flat antennas under test (AUTs) is here developed. It relies on the nonredundant sampling representations of the electromagnetic fields and on the optimal sampling interpolation expansions, and considers a flat AUT as enclosed in a dish having diameter equal to its maximum dimension. Since the number of needed NF samples is related to the area of surface enclosing the AUT, it results significantly reduced with respect to the use of the other AUT modelings available for quasi-planar AUTs and based on the oblate spheroid and the double bowl. Numerical results assessing the effectiveness of the proposed NF-FF transformation are shown.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.