A Compact Triple Band Notch Reconfigurable Antenna for UWB Applications
INTERNATIONAL JOURNAL OF MICROWAVE AND OPTICAL TECHNOLOGY • 2021
معلومات البحث
المؤلفون
Ahmed Samir1,3
, Ahmed Magdy2
, Ebtsam omar3
, Hala M. Abd El Kader
3
and, Ahmed Fawzy4*
الكلمات المفتاحية
Ultra wideband(UWB) antenna, Ushaped slot, Frequency-band reconfigurable, Triple
notch
المجلة العلمية
INTERNATIONAL JOURNAL OF MICROWAVE AND OPTICAL TECHNOLOGY
الناشر
IJMOT
المجلد
16
العدد
1
الصفحات
73-84
publication.type
International
رابط البحث
Not Available
المواد المرفقة
Not Available
الملخص
In this paper, a novel design for compact
frequency reconfigurable triple slot antenna based on
rejected triple band stop functions is demonstrated.
An Ultra-Wide Band (UWB) antenna is designed to
operate from 3.3 to 12 GHz and printed on a (30 mm
× 35 mm) FR4 substrate with permittivity of 4.4 and
a thickness of 1.6 mm and also printed on a
Rogers4003C substrate with permittivity of 3.38 and
a thickness of 1.524 mm. The antenna comprises an
inverted double U-slot and an H-Slot on a metallic
patch and U-Slot in the feedline to exhibit a triple
band-notch functions for the WiMAX band (3.2-3.7
GHz), WLAN-band (5.2-6.3 GHz) and C-band (9-10.8
GHz). To generate a reconfigurable band-stop
antenna, the multi Strips (0.4mm×0.5 mm) within the
embedded structures are used in the patch plane and
feedline. By changing the ON/OFF conditions of the
Strips, the antenna can operate in single, dual, and
triple-band mode. HFSS simulator program is used to
design and simulate results for the proposed antenna.
The simulated bandwidth with return loss < -10 dB is
(3-12) GHz. The proposed antenna is fabricated and
measured. The Simulated and experimental results
are compared and found to be in good agreement.
frequency reconfigurable triple slot antenna based on
rejected triple band stop functions is demonstrated.
An Ultra-Wide Band (UWB) antenna is designed to
operate from 3.3 to 12 GHz and printed on a (30 mm
× 35 mm) FR4 substrate with permittivity of 4.4 and
a thickness of 1.6 mm and also printed on a
Rogers4003C substrate with permittivity of 3.38 and
a thickness of 1.524 mm. The antenna comprises an
inverted double U-slot and an H-Slot on a metallic
patch and U-Slot in the feedline to exhibit a triple
band-notch functions for the WiMAX band (3.2-3.7
GHz), WLAN-band (5.2-6.3 GHz) and C-band (9-10.8
GHz). To generate a reconfigurable band-stop
antenna, the multi Strips (0.4mm×0.5 mm) within the
embedded structures are used in the patch plane and
feedline. By changing the ON/OFF conditions of the
Strips, the antenna can operate in single, dual, and
triple-band mode. HFSS simulator program is used to
design and simulate results for the proposed antenna.
The simulated bandwidth with return loss < -10 dB is
(3-12) GHz. The proposed antenna is fabricated and
measured. The Simulated and experimental results
are compared and found to be in good agreement.
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