Perancangan Antena Yagi Cetak untuk Sensor Deteksi Petir pada Pita Very High Frequency: Design of Printed Yagi Antenna for Lightning Detection Sensor on Very High Frequency Band

Mia Maria Ulfah; Dean Corio; Rheyuniarto Sahlendar Asthan; Achmad Munir

doi:10.33019/jurnalecotipe.v9i1.2886

Authors

Mia Maria Ulfah Department of Telecommunication Engineering, Institute of Technology Sumatera , Program Studi Teknik Telekomunikasi, Institut Teknologi Sumatera
Dean Corio Department of Electrical Engineering, Institute of Technology of Sumatera , Program Studi Teknik Elektro, Institut Teknologi Sumatera
Rheyuniarto Sahlendar Asthan Department of Telecommunication Engineering, Institute of Technology Sumatera , Program Studi Teknik Telekomunikasi, Institut Teknologi Sumatera
Achmad Munir Radio Telecommunication and Microwave Laboratory, ITB , Laboratorium Telekomunikasi Radio dan Gelombang Mikro, Institut Teknologi Bandung

DOI:

https://doi.org/10.33019/jurnalecotipe.v9i1.2886

Keywords:

Yagi Antenna, Printed Yagi Antenna, VHF Band, Lighting Detection Sensors

Abstract

In this research, Yagi antenna and printed Yagi antenna as one of the components of lightning detection sensors have been designed and simulated. Both antennas have the same number of elements and are fed by the coaxial probe technique. Printed Yagi antennas use a dielectric substrate with a certain relative permittivity as a medium, while the conventional one uses air as a medium. The final dimension of the Yagi antenna is 0.84λ x 0.5λ, while the printed Yagi antenna is 0.595λ x 0.47λ. The simulation results show that with a smaller, lighter, and compact size, printed Yagi antenna is able to work at the same frequency as conventional Yagi antenna with a reflection coefficient of -17.1dB, the peak gain of 8.8dBi, and has a directional radiation pattern in the VHF-band.

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References

C. Price, “Lightning Sensors for Observing, Tracking and Nowcasting Severe Weather,” Sensors., vol. 8, hal. 157-170, Jan. 2008.

R. A. Alhalabi dan G. M. Rebeiz, “High-Gain Yagi-Uda Antennas for Millimiter-Wave Switched-Beam Systems,” IEEE Transactions on Antennas and Propagation, vol. 57, hal. 3672-3676, Nov. 2009.

Y. Qian, W. R. Deal, N. Kaneda, dan T. Itoh, “Microstrip-fed quasi-Yagi antenna with broadband characteristics,” Electronics Letters, vol. 34, hal. 2194-2196, Nov. 1998.

S. Liu, R. Raad, dan F. E. M. Tubbal, “Printed Yagi-Uda anetnna array on CubeSat,” 11th International Conference on Signal Processing and Communication Systems (ICSPCS), Jan. 2018.

M. Awais, M. Hamza, dan W. T. Khan, “A Compact Ultra-Wideband Single Element Planar Yagi Antenna,” 2018 IEEE International Symposium on Antennas and Propagation & USNC/URSI National Radio Science Meeting, hal. 1939-1940, Juli. 2018.

H. Kumar dan G. Kumar, “Compact planar Yagi-Uda antenna with improved characteristics,” 2017 11th European Conference on Antennas and Propagation (EUCAP), hal. 2008-2012, Mei. 2017.

L. P. Smith, J. C. Howell, dan S. Lim, “A Size-Reduced, 15-Element, Planar Yagi Antenna,” IEEE Transactions on Antennas and Propagation, vol. 69, hal. 2410-2415, April. 2021.

A. Suryadi, “Perancangan Instalasi Penangkal Petir Eksternal Metoda Franklin pada Politeknik Enjinering Indorama”, Sinergi, vol. 21, hal. 219-230, Okt. 2017.

D. MacGorman dan W. D. Rust, The Electrical Nature of Storms, 1st ed., Oxford University Press., 1998.

U. Finke dan O. Kreyer, “Detect and Locate Lightning Events from Geostationary Satellite Observations,” Report Part 1 of Institute für Meteorlogie un Klimatologie Universität Hannover, Sept. 2002.

S. Uda, “Wireless Beam of Short Electric Waves,” J. IEE (Japan), hal.273-282, Mar.1926 dan hal 1209-1219, Nov. 1927.

H. Yagi, “Beam Transmission of Ultra Short Waves,” Proceedings of the Institute of Radio Engineers, vol. 16, hal. 715-740, Juni.1928.

C. Balanis, Antenna Theory: Analysis and Design, 4th ed., John Wiley & Sons, Inc., 2016.

L. Kibona dan A. Sam, “Yagi-Uda Antenna Gain Improvement for Enhanced Reception of DVB-T2 Signals,” Journal of Information Engnieering and Applications, vol. 14, hal. 57-64, 2014.