Design And Analysis Of Antenna Microstrip Patch Pi Slot Array Four Elements With Proximity Coupling Method For Multi Wide Band Characteristics
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Published:
Oct 13, 2021
Keywords:
Microstrip antenna, bandwidth, return loss, proximity coupling, multi band, Array
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Computer Science
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Abstract
This research has described the design and realization of a pi-slot patch microstrip antenna array four elements who optimized by using proximity coupling method for multi wideband which is tested on frequency of 1-10 Ghz. The proximity coupling method is used to widen the bandwidth and increase the return loss value of the antenna. Based on the measurement results, it is known that the antenna designed has met the requirements of multi wide band because it has six operating frequencies with the best return loss value -30.44 dB VSWR ?2 at a frequency 5.388 Ghz with bandwidth 90 Mhz. And for the widest bandwidth 202 Mhz at a frequency 8.560-8.762 Ghz with return loss -12,19 dB VSWR ?2
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How to Cite
Mekeng, R. and Fitri, I. . . (2021) “Design And Analysis Of Antenna Microstrip Patch Pi Slot Array Four Elements With Proximity Coupling Method For Multi Wide Band Characteristics: ”, Jurnal Mantik, 5(3), pp. 1504-1513. Available at: https://iocscience.org/ejournal/index.php/mantik/article/view/1299 (Accessed: 19April2026).
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[20]. Eddy Endrayana, “Variasi Ground Plane Antena Collinear Pada Pemancar Televisi Analog Dengan Frekuensi UHF 442 MHz”, JASIEK, Vol.1, No.2, , pp. 149~156, Desember 2019
[2]. Fadi Al-Turjman, “The Green Internet of Things (G-IoT)”, Hindawi Wireless Communications and Mobile Computing, Volume 2019, Article ID 6059343, 2 pages
[3]. Yosefine Triwidyastuti, “Multi-hop Communication between LoRa End Devices”, Scientific Journal of Informatics, Vol. 7, No. 1, May 2020
[4]. Sameer Singh, “The Evolution of Radio Access Network Towards Open-RAN: Challenges and Opportunities”, IEEE Wireless Communications and Networking Conference Workshops, 2020
[5]. Syah Alam, “Rancang Bangun Antena Mikrostrip Patch Rectangular dengan Metode Parasitic Untuk Meningkatkan bandwidth”, Jurnal TEKTRIKA, Vol.5, No.1, Januari 2020
[6]. Xiaohong Fan, “Optimal Design of Multiband Microstrip Antennas by Self-Renewing Fitness Estimation of Particle Swarm Optimization Algorithm”, Hindawi International Journal of Antennas and Propagation, Volume 2019, Article ID 2176518, 9 pages, September 2019
[7]. Mohammad M. Fakharian, “A Wideband Rectenna Using High Gain Fractal Planar Monopole Antenna Array for RF Energy Scavenging”, Hindawi International Journal of Antennas and Propagation, Volume 2020, Article ID 3489323, 10 pages, Juni 2020.
[8]. Danvir Mandal, “Wide CPW-Fed Multiband Wearable Monopole Antenna with Extended Grounds for GSM/WLAN/WiMAX Applications”, Hindawi International Journal of Antennas and Propagation Volume 2019, Article ID 4264513, 14 pages, Februari 2019
[9]. Brahim Fady, “Novel Low-Cost Integrated Multiband Antenna Design Customized for Smartwatch Applications with SAR Evaluation”, Hindawi International Journal of Antennas and Propagation Volume 2020, Article ID 8833839, 14 pages, Desember 2020
[10]. Constanine A. Balanis, “Antenna Theory Analysis and Design” Second edition, John Wiley & Sons, 1997
[11]. Rakesh Kumar Tripathi., & Rajesh Khanna.,” Pi Shape Slot Loaded Patch Antenna for Wi-Max Applications“ Special Issue of International Journal of Computer Applications (0975 – 8887) on Electronics, Information and Communication Engineering - ICEICE No.6, Dec 2011
[12]. Ambros Mekeng dan Iskandar Fitri, “Pi Slot Array Two Elements Multi Wide-band Microstrip Antenna Fed by Tunning Stub” The 13th International Conference on Quality in Research (QIR) 2013
[13]. Er. Nitin Agarwal, “Design and Analysis Of ? Shape Microstrip Patch Antenna”, International Journal of Latest Research in Engineering and Management, Volume 2 Issue 3 ? March. 2018
[14]. Amit A. Deshmukh, “Novel ?-Shape Microstrip Antenna Design for Multi-band Response”, Proceedings of International Conference on Wireless Communication, 21 April 2018
[15]. Sayantan Mazumde, “Design and Simulation of ? (Pi) Shape Metamaterial in Micro-strip Patch”, International Journal of Scientific & Engineering Research, Volume 8, Issue 3, Maret-2017
[16]. Vinay Sharma, “A Pi-Shaped Slot Antenna for 5.2?GHz WLANMIMO Application”, IETE Journal of Research, 25 Jan 2021
[17]. Dinesh B. Ganure, “Proximity Coupled Rectangular Microstrip Patch Antenna by Varying Thickness”, International Journal of Advanced Research in Electrical, Electronics and Instrumentation Engineering, Vol. 4, Issue 9, September 2015
[18]. Naufal Widya Gaspura, “Pengaruh Mutual Coupling Pada Beamforming Antena Array”, Jurnal TEKTRIKA, Vol.5, No.1, Januari 2020
[19]. Iskandar Fitri, “A compact microstrip slot antennas fed by a microstrip line with a multi tuning stubs for UWB applications”, Asia-Pacific Microwave Conference, 2006
[20]. Eddy Endrayana, “Variasi Ground Plane Antena Collinear Pada Pemancar Televisi Analog Dengan Frekuensi UHF 442 MHz”, JASIEK, Vol.1, No.2, , pp. 149~156, Desember 2019
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