Compact Cavity-backed Magneto-Electric Dipole Array Filtenna Using Hybrid Coupled-resonators

Behrooz Rezaee; H. Sarbandi Farahani; Wolfgang Bösch

doi:10.1109/APS/URSI47566.2021.9704471

Compact Cavity-backed Magneto-Electric Dipole Array Filtenna Using Hybrid Coupled-resonators

Behrooz Rezaee, H. Sarbandi Farahani, Wolfgang Bösch

Institute of Microwave and Photonic Engineering (4510)

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

Abstract

This paper presents a new design approach for filtering antenna (Filtenna) array. The main idea is to use a hybrid configuration of coupled-resonators as a feed network of the array. With this purpose, the non-radiative combline and radiative rectangular cavities are effectively adopted to control the inter-element spacing of the array and resonant behaviour of the filter. The magneto-electric (ME) dipoles are loaded to the radiative cavities to provide the desired radiation profile and output quality factor for antenna and filter, respectively. For demonstration, a fourth-degree 2×2 array of cavity-backed ME dipole Filtenna is implemented by hybrid resonators operated at X-band frequencies. The synthesized and simulated results agree well and show return loss of −15 dB (over 600 MHz bandwidth), flat realized gain of 10 dB and a steep roll-off out of band rejection.

Original language	English
Title of host publication	2021 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting, APS/URSI 2021 - Proceedings
Pages	249-250
Number of pages	2
ISBN (Electronic)	9781728146706
DOIs	https://doi.org/10.1109/APS/URSI47566.2021.9704471
Publication status	Published - 16 Feb 2022

Keywords

Combline filter
Coupling matrix
Filtenna
hybrid resonator
Magneto-Electric Dipole array

ASJC Scopus subject areas

Instrumentation
Computer Networks and Communications

Access to Document

10.1109/APS/URSI47566.2021.9704471

Cite this

Compact Cavity-backed Magneto-Electric Dipole Array Filtenna Using Hybrid Coupled-resonators. / Rezaee, Behrooz; Sarbandi Farahani, H.; Bösch, Wolfgang.
2021 IEEE International Symposium on Antennas and Propagation and North American Radio Science Meeting, APS/URSI 2021 - Proceedings. 2022. p. 249-250.

Research output: Chapter in Book/Report/Conference proceeding › Conference paper › peer-review

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abstract = "This paper presents a new design approach for filtering antenna (Filtenna) array. The main idea is to use a hybrid configuration of coupled-resonators as a feed network of the array. With this purpose, the non-radiative combline and radiative rectangular cavities are effectively adopted to control the inter-element spacing of the array and resonant behaviour of the filter. The magneto-electric (ME) dipoles are loaded to the radiative cavities to provide the desired radiation profile and output quality factor for antenna and filter, respectively. For demonstration, a fourth-degree 2×2 array of cavity-backed ME dipole Filtenna is implemented by hybrid resonators operated at X-band frequencies. The synthesized and simulated results agree well and show return loss of −15 dB (over 600 MHz bandwidth), flat realized gain of 10 dB and a steep roll-off out of band rejection.",

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AU - Rezaee, Behrooz

AU - Sarbandi Farahani, H.

AU - Bösch, Wolfgang

PY - 2022/2/16

Y1 - 2022/2/16

N2 - This paper presents a new design approach for filtering antenna (Filtenna) array. The main idea is to use a hybrid configuration of coupled-resonators as a feed network of the array. With this purpose, the non-radiative combline and radiative rectangular cavities are effectively adopted to control the inter-element spacing of the array and resonant behaviour of the filter. The magneto-electric (ME) dipoles are loaded to the radiative cavities to provide the desired radiation profile and output quality factor for antenna and filter, respectively. For demonstration, a fourth-degree 2×2 array of cavity-backed ME dipole Filtenna is implemented by hybrid resonators operated at X-band frequencies. The synthesized and simulated results agree well and show return loss of −15 dB (over 600 MHz bandwidth), flat realized gain of 10 dB and a steep roll-off out of band rejection.

AB - This paper presents a new design approach for filtering antenna (Filtenna) array. The main idea is to use a hybrid configuration of coupled-resonators as a feed network of the array. With this purpose, the non-radiative combline and radiative rectangular cavities are effectively adopted to control the inter-element spacing of the array and resonant behaviour of the filter. The magneto-electric (ME) dipoles are loaded to the radiative cavities to provide the desired radiation profile and output quality factor for antenna and filter, respectively. For demonstration, a fourth-degree 2×2 array of cavity-backed ME dipole Filtenna is implemented by hybrid resonators operated at X-band frequencies. The synthesized and simulated results agree well and show return loss of −15 dB (over 600 MHz bandwidth), flat realized gain of 10 dB and a steep roll-off out of band rejection.

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ER -

Compact Cavity-backed Magneto-Electric Dipole Array Filtenna Using Hybrid Coupled-resonators

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

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CD-Laboratory for Technology guided electronic component design and characterization

Cite this

Compact Cavity-backed Magneto-Electric Dipole Array Filtenna Using Hybrid Coupled-resonators

Abstract

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Projects

CD-Laboratory for Technology guided electronic component design and characterization

Cite this