Andrés Biedma-Pérez scite author profile

Andrés Biedma-Pérez

3Publications

1Citation Statement Received

27Citation Statements Given

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Affiliations

University of Granada

Publications

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Holey SIW Horn Antenna Based on an H-Plane Lenswise Wavefront Collimation

Biedma-Pérez

Padilla

Segura-Gómez

et al. 2023

IEEE Trans. Antennas Propagat.

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This paper presents an H-plane SIW horn antenna whose directivity is enhanced using holey unit cells along the horn flaring. By wisely drilling the horn antenna, it is possible to reduce the phase error in the aperture which is a common problem in horn antennas if the optimum dimensions are not employed. An analysis of the distribution of the unit cells along the horn antenna has been carried out to achieve the desired equivalent refractive indices. By changing the hole radius, different equivalent refractive indices can be tuned with a wideband performance. This fact enables the implementation of a collimation zone inside the horn antenna which transforms the pseudo-circular wavefront into a quasiplanar one in the radiating aperture. The produced directivity is similar to the horn antenna with the optimum dimensions but a longitudinal reduction of 53.7% and a higher realized gain are achieved. A holey SIW horn antenna is designed and manufactured. The measured results show an impedance bandwidth performance below -10 dB from 34.3 GHz to 44.5 GHz (25.9%) with a realized gain above 10 dBi. The gain difference regarding a SIW horn antenna without the collimation zone is about 2-3 dBi in the operating frequency range.

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Holey SIW Horn Antenna Based on an H-plane Lens-wise Wavefront Collimation

Biedma-Pérez¹,

Padilla²,

Segura-Gómez³

et al. 2022

Preprint

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<p>This paper presents an H-plane SIW horn antenna whose directivity is enhanced using holey unit cells along the horn flaring. By wisely drilling the horn antenna, it is possible to reduce the phase error in the aperture which is a common problem in horn antennas if the optimum dimensions are not employed. An analysis of the distribution of the unit cells along the horn antenna has been carried out to achieve the desired equivalent refractive indices. By changing the hole radius, different equivalent refractive indices can be tuned with a wideband performance. This fact enables the implementation of a collimation zone inside the horn antenna which transforms the pseudo-circular wavefront into a quasi-planar one in the radiating aperture. The produced directivity is similar to the horn antenna with the optimum dimensions but a longitudinal reduction of 53.7% and a higher realized gain are achieved. A holey SIW horn antenna is designed and manufactured. The measured results show an impedance bandwidth performance below -10 dB from 34.3 GHz to 44.5 GHz (25.9%) with a realized gain above 10 dBi. The gain difference regarding a SIW horn antenna without the collimation zone is about 2-3 dBi in the operating frequency range. </p>

show abstract

Holey SIW Horn Antenna Based on an H-plane Lens-wise Wavefront Collimation

Biedma-Pérez¹,

Padilla²,

Segura-Gómez³

et al. 2022

Preprint

View full text Add to dashboard Cite

show abstract

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