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Design and implementation of a quad element patch antenna at 5.8 GHz

العنوان Design and implementation of a quad element patch antenna at 5.8 GHz
المؤلف Sobhani, M. R., Majidi, Negar, İmeci, Ş. T.
تاريخ النشر: 2018-10
مكان النشر - The Applied Computational Electromagnetics Society
الموضوع 2x2 microstrip patch antenna, 5.8 GHz antenna, Quad microstrip patch antenna
النوع دورية
اللغة الإنجليزية
رقمي نعم
مخطوط لا
المكتبة: جامعة اوزيجين
معرف أصل المكتبة 1054-4887
رقم السجل f413a276-23db-4ee2-a257-16bc777fbfff
التاريخ 2018-10
نص عينة This paper presents simulation and experimental verification of a quad microstrip patch antenna that operates at 5.8 GHz. Sonnet antenna design software was used to simulate the performance of the antenna. To reduce the design's complexity and the computational load, the antenna and the feeding lines were simulated separately. An optimization was done for each subpart to get the optimum desired results. Finally, all the subparts were merged and the final structure was simulated to check the performance. A prototype of the antenna was fabricated on a double-sided PCB substrate (relative permittivity=10.2, thickness=1.28 mm) using a PCB milling machine. The S11 of -14 dB and -18.8 dB and maximum gain of 6.2 dB and 4.2 dB were obtained, from the simulation and experimental measurements, respectively.
Cilt 33
عرض في المصدر جامعة اوزيجين Özyeğin Üniversitesi
Özyeğin Üniversitesi جامعة اوزيجين

Design and implementation of a quad element patch antenna at 5.8 GHz

المؤلف Sobhani, M. R., Majidi, Negar, İmeci, Ş. T.
تاريخ النشر 2018-10
مكان النشر - The Applied Computational Electromagnetics Society
الموضوع 2x2 microstrip patch antenna, 5.8 GHz antenna, Quad microstrip patch antenna
النوع دورية
اللغة الإنجليزية
رقمي نعم
مخطوط لا
المكتبة جامعة اوزيجين
معرف أصل المكتبة 1054-4887
رقم السجل f413a276-23db-4ee2-a257-16bc777fbfff
التاريخ 2018-10
نص عينة This paper presents simulation and experimental verification of a quad microstrip patch antenna that operates at 5.8 GHz. Sonnet antenna design software was used to simulate the performance of the antenna. To reduce the design's complexity and the computational load, the antenna and the feeding lines were simulated separately. An optimization was done for each subpart to get the optimum desired results. Finally, all the subparts were merged and the final structure was simulated to check the performance. A prototype of the antenna was fabricated on a double-sided PCB substrate (relative permittivity=10.2, thickness=1.28 mm) using a PCB milling machine. The S11 of -14 dB and -18.8 dB and maximum gain of 6.2 dB and 4.2 dB were obtained, from the simulation and experimental measurements, respectively.
Cilt 33
Özyeğin Üniversitesi
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