Frequency Reconfigurable Multiband Planar Antenna for Multistandard Communications

In this work, a novel frequency-reconfigurable printed antenna is proposed. The structure consists of a capacitively loaded loop (CLL) introduced into the near field region of a coplanar waveguide (CPW) printed monopole antenna. By embedding a pair of capacitors C1 and C2 between each CLL element an...

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Bibliographic Details
Main Authors: Smari, Moheddine, Dakhli, Saber, Floc'h, Jean-Marie, Choubani, Fethi
Format: Conference Proceeding
Language:English
Subjects:
Antenna measurements
Capacitance
Capacitively Loaded Loop (CLL)
Capacitors
Coplanar waveguides
Dipole antennas
Dynamic spectrum access
Frequency-Reconfigurability
Lumped Capacitor
Printed Monopole antenna
Resonant frequency
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Description
Summary:In this work, a novel frequency-reconfigurable printed antenna is proposed. The structure consists of a capacitively loaded loop (CLL) introduced into the near field region of a coplanar waveguide (CPW) printed monopole antenna. By embedding a pair of capacitors C1 and C2 between each CLL element and the ground plane, we can easily generate and control two resonant frequencies in addition to the main resonant frequency of the reference structure at 2.45GHz. The proposed antenna achieves a frequency reconfigurable band with tuning range from 0.6GHz to 1.06GHz (LTE 600, LTE 700 and GSM 900 bands) when varying the C1 capacitance values from 1 to 7pF and 1.35 to 2.03 GHz (AWS, DCS and UMTS bands) when varying the C2 capacitance values from 0.1 to 0.7pF with reasonably good gain (>1.5 dBi) and efficiency (82%). The presented antenna has a compact size of 50 \times 35 mm 2 . The proposed design is validated by simulations, displaying good results of impedance mismatch, gain pattern and radiation efficiency. The reconfigurability, range tuning and compact size makes the presented antenna well suitable for the future 5G systems to achieve dynamic spectrum access and deal with the spectrum shortage problem.
ISSN:1847-358X
DOI:10.23919/SoftCOM50211.2020.9238152