Substrate influence on flat folded dipole bandwidth
Substrate influence on flat folded dipole bandwidth
- Author(s): G. Dubost and A. Rabbaa
- DOI: 10.1049/el:19850303
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- Author(s): G. Dubost 1 and A. Rabbaa 2
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View affiliations
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Affiliations:
1: Laboratory of Antennas & Radiation, UA 834 of the CNRS, University of Rennes I, Rennes, France
2: Laboratory of Antennas & Radiation and Electromagnetic Group, Department of Physics, University of Casablanca, Casablanca, Morocco
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Affiliations:
1: Laboratory of Antennas & Radiation, UA 834 of the CNRS, University of Rennes I, Rennes, France
- Source:
Volume 21, Issue 10,
9 May 1985,
p.
426 – 427
DOI: 10.1049/el:19850303 , Print ISSN 0013-5194, Online ISSN 1350-911X
The flat folded dipole has its largest bandwidth when low dielectric substrate is used, and when it acts at both third and fourth resonances. Theory and experiments are in good agreement.
Inspec keywords: waveguide antennas; antenna radiation patterns; antenna theory; microwave antenna arrays; dipole antennas
Other keywords:
Subjects: Antenna theory; Antenna arrays
References
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1)
- G. Dubost , P. Potier . Réseau plat à commutation électronique de faisceaux dans la bande des 12 GHz. LOnde Electrique
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2)
- G. Dubost , S. Gueho , D. Beguin . Bandwidth of a low sidelobe level multimode radiating coupled waveguide array. IEEE Trans. , 280 - 285
-
3)
- G. Dubost . (1981) , Flat radiating dipoles and applications to arrays.
-
4)
- G. Dubost . Transmission-line model analysis of a lossy rectangular microstrip patch. Electron. Lett. , 281 - 282
-
5)
- G. Dubost , G. Beauquet , C. Vinatier . Theoretical radiation admittance of a large bandwidth flat symmetrical folded dipole. Electron. Lett. , 252 - 253
-
6)
- G. Dubost , D. Beguin , E. Chapuis , A. Auriol . (1984) , Réseau plat à grand gain et à faibles lobes secondaires à 5 GHz.
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1)