M. Barba scite author profile

Abstract-A significant improvement in the bandwidth of large reflectarrays is demonstrated using elements which allow true-time delay. Two identical, large reflectarrays have been designed using different phase distributions to generate a collimated beam. In the former, the phase distribution is truncated to 360° as is usual in reflectarray antennas, while in the second, the true phase delay is maintained (three cycles of 360°). The chosen phase-shifter elements are based on previously measured and validated patches aperture-coupled to delay lines. The radiation patterns for both reflectarrays have been computed at several frequencies and the gain is represented as a function of frequency for both cases. Bandwidth curves are presented as a function of the reflectarray size.

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Design and Experimental Validation of Liquid Crystal-Based Reconfigurable Reflectarray Elements With Improved Bandwidth in F-Band

Pérez-Palomino

Baine

Dickie

et al. 2013

IEEE Trans. Antennas Propagat.

139

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X-Band Reflectarray Antenna With Switching-Beam Using PIN Diodes and Gathered Elements

Carrasco

Barba

Encinar

2012

IEEE Trans. Antennas Propagat.

190

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 An electronically switching-beam reflectarray antenna to be used in X-band has been designed, manufactured and tested, using PIN diodes as switching device. The antenna has 244 elements arranged in a circular aperture. With the aim of saving electronic devices and reducing both manufacturing complexity and cost, the phase control has been implemented at sub-array level, using aperture-coupled patches gathered by pairs to a common delay line. The antenna was designed to switch the beam between +5º, in a scanning plane tilted 18.3º with respect to the YZ plane. Each state was obtained by forward biasing one half of the diodes, while the other half remains in reverse biasing. A third state with the beam pointing to 0º was obtained when all the diodes are in reverse biasing. The concept has been demonstrated by manufacturing and testing a breadboard. The measured radiation patterns fulfill the design requirements.

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Design and Demonstration of an Electronically Scanned Reflectarray Antenna at 100 GHz Using Multiresonant Cells Based on Liquid Crystals

Pérez-Palomino

Barba

Encinar

et al. 2015

IEEE Trans. Antennas Propagat.

157

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Abstract-The design, fabrication and measured results are presented for a reconfigurable reflectarray antenna based on liquid crystals (LC) which operates above 100 GHz. The antenna has been designed to provide beam scanning capabilities over a wide angular range, a large bandwidth and reduced Side-Lobe Level. Measured radiation patterns are in good agreement with simulations, and show that the antenna generates an electronically steerable beam in one plane over an angular range of 55° in the frequency band from 96 to 104 GHz. The Side Lobes Level is lower than -13 dB for all the scan angles and -18 dB is obtained over 16% of the scan range. The measured performance is significantly better than previously published results for this class of electronically tunable antenna, and moreover verifies the accuracy ofthe proposed procedure for LC modeling and antenna design.Index Terms-Beam scanning reflectarrays, liquid crystal (LC), millimeter and sub-millimeter wave antennas, radar applications

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Reflectarray Element Based on Aperture-Coupled Patches With Slots and Lines of Variable Length

Carrasco

Barba

Encinar

2007

IEEE Trans. Antennas Propagat.

127

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M. Barba

Bandwidth Improvement in Large Reflectarrays by Using True-Time Delay

Design and Experimental Validation of Liquid Crystal-Based Reconfigurable Reflectarray Elements With Improved Bandwidth in F-Band

X-Band Reflectarray Antenna With Switching-Beam Using PIN Diodes and Gathered Elements

Design and Demonstration of an Electronically Scanned Reflectarray Antenna at 100 GHz Using Multiresonant Cells Based on Liquid Crystals

Reflectarray Element Based on Aperture-Coupled Patches With Slots and Lines of Variable Length

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