Axial Mode Helix Antenna to Amplify 4G LTE Signal in Rural Area

english

Authors

  • Nasrul Politeknik Negeri Padang, Indonesia
  • Uzma Septima Politeknik Negeri Padang, Indonesia
  • Kelvin Andrian Politeknik Negeri Padang, Indonesia

DOI:

https://doi.org/10.47709/brilliance.v3i2.2985

Keywords:

Helical Antenna, Signal Booster, 4G LTE, Rural

Abstract

Rural areas that may still be difficult to get 4G signals are caused by the diverse
topography of the region and uneven landscapes, especially in mountainous areas
which result in weakness in signal reception in the area. To get 4G signal coverage
in this area, it is necessary to have a repeater in the form of an antenna that
functions as a signal booster in the area. In this study, a helix antenna consisting
of ten windings at the uplink (1710-1785 Mhz) and downlink (1805-1880 Mhz)
4G LTE frequencies was designed. It is hoped that this antenna can produce higher
gain and a more focused beam, with the aim of strengthening 4G signals in rural
areas. The antenna design was tested through the use of CST Studio Suite
software. The antenna design has been simulated using CST Studio Suite
software. After optimizing the simulation results, a return loss of -14 dB, VSWR
of 1.49, a gain of 12.47 dBi, and HPBW of 500 were obtained. From the
measurement results obtained, the helix antenna with ten turns shows good
performance at a frequency of 1880 Mhz with a return loss of -17.75 dB, VSWR
of 1.32, gain of 12.15 dBi, HPBW of 440
, and unidirectional polarization.

References

Adzani Fatharanie, F., & Sambasri, S. (2018). Analisis Parameter Antena Helix Gelombang Mikro Berbasis Mmana-Gal Dan Implementasinya Pada Jaringan Wireless. In EPSILON?: Journal of Electrical Engineering and Information Technology (Vol. 16, Issue 1).

Balanis, C. A. (2015). Antenna Theory Third Edition: Analysis and Design. John Wiley & Sons Inc, 9(7), 2596.

Dhaifina, Fakhrana, & Aldosyah. (2019). Perancangan Dan Realisasi Antena Biquad Yagi Dan Antena Biquad Omnidirectional Sebagai Repeater 27 pasif untuk meningkatkan Daya Terima Sinyal WCDMA. Jurnal Teknik Elektro, 4(3), 234.

Dongyu, X., Hou, Z., Qianyue, Z., & Chong, W. (n.d.). Three Coaxial-feed Axial Mode Spherical Helical Antennas.

Fauzi, A., Widya Cahyadi, dan, Kalimantan No, J., Jember, K., & Timur, J. (2020). DESAIN DAN IMPLEMENTASI ANTENA HELIX DAN RECTANGULAR PATCH DENGAN INSET FEED UNTUK PASSIVE REPEATER PADA FREKUENSI WCDMA. In TRANSMISI (Vol. 22, Issue 2). https://ejournal.undip.ac.id/index.php/transmisi

IEEE Staff, & IEEE Staff. (n.d.). 2008 International Wireless Communications and Mobile Computing Conference.

Imansyah, F., Ratiandi, R., Marpaung, J., Sandy, L., Putra, A., & Kusumawardhani, E. (2022). Penerapan Hasil Teknologi Rancang Bangun Antena Helix dan Bolic Sebagai Penguat Jaringan Internet dengan Modem Mi-Fi. In Buletin Al-Ribaath (Vol. 19).

Institute of Electrical and Electronics Engineers., Nanjing you dian xue yuan., Institute of Electrical and Electronics Engineers. Nanjing Section., & Institute of Electrical and Electronics Engineers. Beijing Section. (2010). 12th IEEE International Conference on Communication and Technology?: ICCT 2010, November 11-14, 2010, Nanjing, China. IEEE.

John D. Kraus, & Ronald J. Marhefka. (2002). Antennas For All Applications (Daniel Fleisch, Ed.; 3rd ed., Vol. 3). McGraw-Hill Higher Education.

koshti, R., Yadav, S., & Sharma, S. (2018). Performance Analysis of Helical Antenna for Different Physical Structure. Print) Www.Arcjournals.Org International Journal of Innovative Research in Electronics and Communications, 5(4), 21–25. https://doi.org/10.20431/2349-4050.0504004

Mardani, H., Buchanan, N., Cahill, R., & Fusco, V. (2021). Impedance Matching of Ax ial Mode Helical Antennas. WSEAS Transactions on Circuits and Systems, 20, 66–69. https://doi.org/10.37394/23201.2021.20.8

Marintis Dwijayatno, F., Christyono, Y., & Santoso, I. (n.d.). PERANCANGAN ANTENA HELIX UNTUK MENINGKATKAN DAYA TERIMA SINYAL GSM 900 YANG MEMILIKI LEVEL DAYA RENDAH.

Muchtar, H., & Firmansyah, T. (n.d.). PERANCANGAN DAN SIMULASI ANTENA HELIX PADA FREKUENSI 2,4 GHZ. Jurnal Elektum, 15(2).

Pakpahan, I. A., Sirait, I. R., Elektro, T., Teknik, A., & Serdang, D. (n.d.). RANCANG BANGUN ANTENA HELICAL UNTUK MEMPERKUAT SINYAL PADA JARINGAN CELLULAR MOBILE COMMUNICATION 1800 MHz.

Poggio, A. J., & Ziolkowski, F. P. (n.d.). ARRAY OF NORhIAL MODE HELICAL DIPOLES A SUF’ERDIRECIIVE.

Setiabudi, D., & Wicaksono, L. B. H. (2018). Rancang Bangun Antena Helix Mode Axial dan Patch Meanderline DGS untuk Aplikasi LPWAN Berbasis IoT pada Daerah Rural. Jurnal Rekayasa Elektrika, 14(2). https://doi.org/10.17529/jre.v14i2.10906

Theiconomics. (2020, March 14). . Kurang dari 50% wilayah Indonesia belum terjangkau sinyal 4G. Kominfo.

Ulfah, M. (2019). Perhitungan Pathloss Teknologi 4G Long Term Evolution (LTE). Jurnal Teknik Elektronika , 3(2), 1235.

Umben, A., Elbani, A., Marpaung, J., Imansyah, F., Elektro, J. T., Teknik, F., Tanjungpura, U., & Nawawi, J. H. H. (n.d.). ANALISIS PENERAPAN PENGGUNAAN ANTENA WAJAN BOLIC DENGAN ANTENA HELIX DALAM MEMPEKUAT SINYAL WIFI.

Utomo, E. P., Suryadi, D., Program, ), Elektro, S. T., & Elektro, J. T. (n.d.). RANCANG BANGUN ANTENA HELICAL 1800 MHz UNTUK MEMPERKUAT PENERIMAAN SINYAL GSM (GLOBAL SYSTEM FOR MOBILE ).

Yansah, & Reza. (2022). “Identifikasi Pengaruh Obstacle propagasi Terhadap kinerja Tranceiver SX1278 Pada Frekuensi 433 Mhz Dalam Mentransmisikan Paket Data Digital. Jurnal Teknik Elektro, 1(1), 235.

Zeain, M. Y., Zakaria, Z., Abu, M., Al-Gburi, A. J. A., Alsariera, H., Toding, A., Alani, S., Al-Tarifi, M. A., Al-Heety, O. S., Lago, H., & Saeidi, T. (2020). Design of helical antenna for next generation wireless communication. Przeglad Elektrotechniczny, 96(11), 96–99. https://doi.org/10.15199/48.2020.11.19

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Published

2023-11-03

How to Cite

Nasrul, Septima, U., & Andrian, K. (2023). Axial Mode Helix Antenna to Amplify 4G LTE Signal in Rural Area: english. Brilliance: Research of Artificial Intelligence, 3(2), 144–154. https://doi.org/10.47709/brilliance.v3i2.2985

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