Passive and Active Reconfigurable Scan-Beam Hollow Patch Reflectarray AntennasReport as inadecuate

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ISRN Communications and NetworkingVolume 2012 2012, Article ID 290534, 10 pages

Research Article

Faculty of Industrial Design, Delft University of Technology, Landbergstraat 15, 2628 CE Delft, The Netherlands

Department for Electrical Engineering, DIMES, Delft University of Technology, Mekelweg 4, 2628 CD Delft, The Netherlands

Microwave and Radar Technologies, Department for Electrical Engineering, Delft University of Technology, Mekelweg 4, 2628 CD Delft, The Netherlands

Received 28 December 2011; Accepted 30 January 2012

Academic Editors: C. Beckman and W. C. van Etten

Copyright © 2012 M. Hajian et al. This is an open access article distributed under the Creative Commons Attribution License, which permits unrestricted use, distribution, and reproduction in any medium, provided the original work is properly cited.


The design concept of passive and active reconfigurable reflectarray antennas has been proposed and tested. The antenna elements in the array are identical hollowed patches. In the first phase of study the slots are loaded with a SMD capacitorto set the required phase shift needed for array implementation. Simulations show promising results. Mounting a SMD capacitor in such a configuration can be considered as the first step in using capacitive loading on a slotted patch for active microstrip reflectarrays. It is shown that by adjusting the capacitance values it is possible to scan the beam. In the second phase, the patch elements are loaded with active varactor-diode device which its reflected phase can be varied. This phase alteration is based on the variation of the diode capacitance which can be achieved by varying the biasing voltage of the active varactor device. In latter approach by activating these varactor devices, the phase of each antenna elementin the array configuration can be adopted dynamically and consequently, its beam direction can be reconfigured. The reflectarrays incorporating passive and active elements have been built and tested at 7.0 GHz and 6.0 GHz, respectively. The performance of the proposed reconfigurable antennas is excellent, and there is good agreement between the theoretical and measurement results which pioneers design of arbitrarily reconfigurable antennas.

Author: M. Hajian, B. Kuijpers, K. Buisman, A. Akhnoukh, M. Pelk, L. C. N. de Vreede, J. Zijdeveld, L. P. Ligthart, and C. Spitas



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