Design and experiment on differentially-driven microstrip antennas
Design and experiment is given of differentially-driven microstrip antennas. First, the design formulas to determine the patch dimensions and the location of the feed point for single-ended microstrip antennas are examined to design differentially-driven microstrip antennas. It is found that the pat...
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sg-ntu-dr.10356-915262020-03-07T14:02:40Z Design and experiment on differentially-driven microstrip antennas Zhang, Yue Ping School of Electrical and Electronic Engineering DRNTU::Engineering::Electrical and electronic engineering Design and experiment is given of differentially-driven microstrip antennas. First, the design formulas to determine the patch dimensions and the location of the feed point for single-ended microstrip antennas are examined to design differentially-driven microstrip antennas. It is found that the patch length can still be designed using the formulas for the required resonant frequency but the patch width calculated by the formula usually needs to be widen to ensure the excitation of the fundamental mode using the probe feeds. The condition that links the patch width, the locations of the probe feeds, and the excitation of the fundamental mode is given. Second, the wideband techniques for single-ended microstrip antennas are evaluated for differentially-driven microstrip antennas. A novel H-slot is proposed for differentially-driven microstrip antennas to improve impedance bandwidth. Third, the effects of imperfect differential signal conditions on the performance of differentially-driven microstrip antennas are investigated for the first time. It is found that they only degrade the polarization purity in the H-plane with an increased radiation of cross-polarization. Finally, both differentially-driven and single-ended microstrip antennas were fabricated and measured. It is shown that the simulated and measured results are in acceptable agreement. More importantly, it is also shown that the differentially-driven microstrip antenna has wider impedance bandwidth of measured 4.1% and simulated 3.9% and higher gain of measured 4.2 dBi and simulated 3.7 dBi as compared with those of measured 1.9% and simulated 1.3% and gain of measured 1.2 dBi and simulated 1.2 dBi of the single-ended microstrip antenna. Published version 2009-08-03T02:56:09Z 2019-12-06T18:07:17Z 2009-08-03T02:56:09Z 2019-12-06T18:07:17Z 2007 2007 Journal Article Zhang, Y. P. (2007). Design and experiment on differentially driven microstrip antennas. IEEE Transactions on Antennas and Propagation, 55(10), 2701-2708. 0018-926X https://hdl.handle.net/10356/91526 http://hdl.handle.net/10220/5997 10.1109/TAP.2007.905832 en IEEE transactions on antennas and propagation IEEE Transactions on Antennas and Propagation © 2007 IEEE. Personal use of this material is permitted. However, permission to reprint/republish this material for advertising or promotional purposes or for creating new collective works for resale or redistribution to servers or lists, or to reuse any copyrighted component of this work in other works must be obtained from the IEEE. This material is presented to ensure timely dissemination of scholarly and technical work. Copyright and all rights therein are retained by authors or by other copyright holders. All persons copying this information are expected to adhere to the terms and constraints invoked by each author's copyright. In most cases, these works may not be reposted without the explicit permission of the copyright holder. http://www.ieee.org/portal/site. 8 p. application/pdf |
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DRNTU::Engineering::Electrical and electronic engineering Zhang, Yue Ping Design and experiment on differentially-driven microstrip antennas |
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Design and experiment is given of differentially-driven microstrip antennas. First, the design formulas to determine the patch dimensions and the location of the feed point for single-ended microstrip antennas are examined to design differentially-driven microstrip antennas. It is found that the patch length can still be designed using the formulas for the required resonant frequency but the patch width calculated by the formula usually needs to be widen to ensure the excitation of the fundamental mode using the probe feeds. The condition that links the patch width, the locations of the probe feeds, and the excitation of the fundamental mode is given. Second, the wideband techniques for single-ended microstrip antennas are evaluated for differentially-driven microstrip antennas. A novel H-slot is proposed for differentially-driven microstrip antennas to improve impedance bandwidth. Third, the effects of imperfect differential signal conditions on the performance of differentially-driven microstrip antennas are investigated for the first time. It is found that they only degrade the polarization purity in the H-plane with an increased radiation of cross-polarization. Finally, both differentially-driven and single-ended microstrip antennas were fabricated and measured. It is shown that the simulated and measured results are in acceptable agreement. More importantly, it is also shown that the differentially-driven microstrip antenna has wider impedance bandwidth of measured 4.1% and simulated 3.9% and higher gain of measured 4.2 dBi and simulated 3.7 dBi as compared with those of measured 1.9% and simulated 1.3% and gain of measured 1.2 dBi and simulated 1.2 dBi of the single-ended microstrip antenna. |
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School of Electrical and Electronic Engineering |
| author_facet |
School of Electrical and Electronic Engineering Zhang, Yue Ping |
| format |
Article |
| author |
Zhang, Yue Ping |
| author_sort |
Zhang, Yue Ping |
| title |
Design and experiment on differentially-driven microstrip antennas |
| title_short |
Design and experiment on differentially-driven microstrip antennas |
| title_full |
Design and experiment on differentially-driven microstrip antennas |
| title_fullStr |
Design and experiment on differentially-driven microstrip antennas |
| title_full_unstemmed |
Design and experiment on differentially-driven microstrip antennas |
| title_sort |
design and experiment on differentially-driven microstrip antennas |
| publishDate |
2009 |
| url |
https://hdl.handle.net/10356/91526 http://hdl.handle.net/10220/5997 |
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1681040371839139840 |