Triple band fractal based on T stub waveguide for sub-6 of 5G
A miniaturized printed antenna circuit of low profile based on a T-stub resonator that is fetched to the third iteration of a modified Moore fractal based on a half unit cell. A simple rectangular patch at the back side of the proposed antenna is attached to enhance the antenna bandwidth and gain. T...
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2023
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my.uniten.dspace-270642023-05-29T17:39:12Z Triple band fractal based on T stub waveguide for sub-6 of 5G Al-Tameemi A.R. Hock G.C. Bashar B.S. Elwi T.A. Al-Shaikhli T.R. Abbas J.K. Jawad M.A. 57983583000 16021614500 56121804400 26643969700 57203802841 7004969991 57211485692 A miniaturized printed antenna circuit of low profile based on a T-stub resonator that is fetched to the third iteration of a modified Moore fractal based on a half unit cell. A simple rectangular patch at the back side of the proposed antenna is attached to enhance the antenna bandwidth and gain. The advantage of introducing the fractal curve is to increase the antenna size reduction. On the other hand, the use of T-stub resonator is to magnify the electric field fringing through charge localization in the air gap between the fractal geometry and the rectangular patch on the back side. The antenna structure is excited with a coplanar waveguide structure(CPW). The patch is printed on FR4 substrate with dimensions of (47 � 25 �1.6) mm3. To investigate the antenna performance, a parametric study is applied on proposed antenna to achieve multi frequency bands with improved bandwidth, gain, matching impudence. The results shows that the antenna resonates at the frequency bands of 2.7GHz, 3.9GHz and 5.7 GHz with bandwidth (2.4GHz-3GHz), (3.7GHz-4 GHz) and (4.1GHz-6 GHz) respectively. The obtained gain at the three frequency bands is found to be 2dBi, 2.1dBi and 3dBi, respectively.The proposed geometry is found to be applicable for different applications in the sub-6 5G commination networks. The proposed study depends on a simulation analyzes by using CST MWS software package of finite integral technique. � 2022 Institute of Advanced Engineering and Science (IAES). Final 2023-05-29T09:39:12Z 2023-05-29T09:39:12Z 2022 Conference Paper 10.23919/EECSI56542.2022.9946454 2-s2.0-85142680382 https://www.scopus.com/inward/record.uri?eid=2-s2.0-85142680382&doi=10.23919%2fEECSI56542.2022.9946454&partnerID=40&md5=f0618cc4baeb34fc2e302ca1ada4a151 https://irepository.uniten.edu.my/handle/123456789/27064 2022-October 424 428 Institute of Electrical and Electronics Engineers Inc. Scopus |
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A miniaturized printed antenna circuit of low profile based on a T-stub resonator that is fetched to the third iteration of a modified Moore fractal based on a half unit cell. A simple rectangular patch at the back side of the proposed antenna is attached to enhance the antenna bandwidth and gain. The advantage of introducing the fractal curve is to increase the antenna size reduction. On the other hand, the use of T-stub resonator is to magnify the electric field fringing through charge localization in the air gap between the fractal geometry and the rectangular patch on the back side. The antenna structure is excited with a coplanar waveguide structure(CPW). The patch is printed on FR4 substrate with dimensions of (47 � 25 �1.6) mm3. To investigate the antenna performance, a parametric study is applied on proposed antenna to achieve multi frequency bands with improved bandwidth, gain, matching impudence. The results shows that the antenna resonates at the frequency bands of 2.7GHz, 3.9GHz and 5.7 GHz with bandwidth (2.4GHz-3GHz), (3.7GHz-4 GHz) and (4.1GHz-6 GHz) respectively. The obtained gain at the three frequency bands is found to be 2dBi, 2.1dBi and 3dBi, respectively.The proposed geometry is found to be applicable for different applications in the sub-6 5G commination networks. The proposed study depends on a simulation analyzes by using CST MWS software package of finite integral technique. � 2022 Institute of Advanced Engineering and Science (IAES). |
| author2 |
57983583000 |
| author_facet |
57983583000 Al-Tameemi A.R. Hock G.C. Bashar B.S. Elwi T.A. Al-Shaikhli T.R. Abbas J.K. Jawad M.A. |
| format |
Conference Paper |
| author |
Al-Tameemi A.R. Hock G.C. Bashar B.S. Elwi T.A. Al-Shaikhli T.R. Abbas J.K. Jawad M.A. |
| spellingShingle |
Al-Tameemi A.R. Hock G.C. Bashar B.S. Elwi T.A. Al-Shaikhli T.R. Abbas J.K. Jawad M.A. Triple band fractal based on T stub waveguide for sub-6 of 5G |
| author_sort |
Al-Tameemi A.R. |
| title |
Triple band fractal based on T stub waveguide for sub-6 of 5G |
| title_short |
Triple band fractal based on T stub waveguide for sub-6 of 5G |
| title_full |
Triple band fractal based on T stub waveguide for sub-6 of 5G |
| title_fullStr |
Triple band fractal based on T stub waveguide for sub-6 of 5G |
| title_full_unstemmed |
Triple band fractal based on T stub waveguide for sub-6 of 5G |
| title_sort |
triple band fractal based on t stub waveguide for sub-6 of 5g |
| publisher |
Institute of Electrical and Electronics Engineers Inc. |
| publishDate |
2023 |
| _version_ |
1806425576231141376 |
| score |
13.214268 |