Design Build a 4x4 Mimo Microstrip Antenna with Artificial Dielectric Muse Array Technique to increase Antenna Gain pexisting Application 5G

Ade Silvia Handayani, Aan Sugiyanto, Ciksadan Ciksadan, Jon Endri

Abstract


The development of fifth-generation cellular technology, commonly referred to as "5G" networks, is believed to be able to maximize data speed access needs. In order to maximize the utilization of the existing 5G network in Indonesia, Telkomsel providers are using a frequency of 2.3 GHz with a bandwidth of 50 MHz. So we need an antenna amplifier that is easy to fabricate and place anywhere to maximize the signal capture range. A microstrip antenna is a suitable antenna for this amplifier. The advantage of this antenna is that it has a light mass and is easy to fabricate. while the drawbacks come in the form of narrow bandwidth and small gains. Therefore, an antenna design with an artificial substrate and array technique was made to overcome this. The design of this microstrip antenna was made in the CST Studio Suite 2019. The design was carried out by entering the antenna dimension values to be simulated and seeing the parameters; if they are not suitable, then they need to be optimized again, and when they are appropriate, the design results are fabricated and printed. In testing the signal capture power using the Xirrus WiFi Inspector, this antenna was able to capture the signal beam, which was 105 meters or 40 meters further than not using the antenna. In addition, from testing, it is known that this antenna has a gain of 16.15 dBi. While in the simulation, it is also known that this antenna has the following characteristics: return loss: -32,353 dB (S11), -32,737 dB (S22), -33,974 dB (S33), -34,423 dB (S44), VSWR: 1,049 (VSWR 1), 1,047 (VSWR 2), 1.040 (VSWR 3), 1.038 (VSWR 4), impedance: 50.7 -111 MHz.


Keywords


5G; Microstrip Antenna; Bandwidth; 2,3 GHz Frequency; Substrat dielectrict artificial

Full Text:

PDF

References


S. Ariyanti, A. S. Slamet, and J. M. Munandar, “Study of Mobile Operator Readiness Measurement in Indonesia for 5G Technology Deployment,†Bul. Pos dan Telekomun., vol. 19, no. 2, p. 105, 2021.

I. Krisnadi, F. Febriyandi, A. F. Kebijakan, and D. Perencanaan, “Rekomendasi ITU Pada Alokasi Spektrum 5G di Indonesia Related papers,†1800.

A. Sianipar, “PERANCANGAN DAN REALISASI ANTENA MIKROSTRIP MIMO BOWTIE 4X4 DENGAN CORNER REFLEKTOR 90o PADA FREKUENSI 1,8 GHZ UNTUK APLIKASI LTE MELALUI TEKNIK PENCATUAN MIKROSTRIP LINE,†2018.

R. F. N. Alam syah, “MENINGKATKAN GAIN UNTUK APLIKASI LTE PADA FREKUENSI 2 . 300 MHz DESIGNING 2x1 ARRAY MICROSTRIP ANTENNA TO IMPROVE GAIN FOR LTE APPLICATIONS IN 2 , 300 MHz,†Tek. dan Ilmu Komput., vol. 07, no. September, pp. 365–378, 2018.

D. Angela, Y. Wahyu, and T. A. Porayouw, “Desain dan Implementasi Antena Susunan Mikrostrip Patch Persegi Panjang Empat Elemen pada 2 , 3 GHz Menggunakan Teknik Pencatuan dengan Distribusi Dolph -Tchebyscheff,†J. Temat., vol. 8, no. 1, pp. 1–7, 2013.

A. Al Shifa, I. Wulani, Y. S. Azzahra, and H. Ludiyati, “Realisasi Antena Mikrostrip Persegi Satu Elemen untuk Aplikasi LTE Menggunakan Material Dielektrik Anisotropik Pada Frekuensi 1,8 GHz,†Pros. 11th Ind. Res. Work. Natl. Semin., pp. 630–636, 2020.

M. A. Rizaki and W. Indani, “Desain Antena Mimo 5G,†pp. 951–961, 2021.

A. R. Aji, L. O. Nur, and B. Syihabuddin, “Perancangan Dan Realisasi Antena Mikrostrip Array Berbentuk Design and Realization of Hexagonal Patch Microstrip Array Antenna for Mimo 4X4 in 15 Ghz Application,†J. Eng., vol. 5, no. 3, pp. 5312–5319, 2018.

H. Ludiyati, E. Elisma, W. Pardosi, and N. Nurfiana, “Analisa Karakteristik Antena Mikrostrip Lingkaran Berbahan Substrat Material Dielektrik Artifisial pada Frekuensi 1800 MHz,†Pros. - Semin. Nas. Tek. Elektro UIN Sunan Gunung Djati Bandung, pp. 276–283, 2019.

C. Noviyanti and H. Ludiyati, “Perancangan dan Realisasi Antena Mikrostrip 4x4 MIMO Berbahan Material Dielektrik Artifisial dengan Menggunakan Mode Gelombang TM11 (Pola Crepes) untuk Meningkatkan Gain Antena Repeater pada Aplikasi LTE,†Jur. Tek. Elektro Politek. Negeri Bandung, vol. 11, pp. 362–368, 2019.

M. Z. Zulfikar, H. Ludiyati, and D. Saefudin, “Antena Mikrostrip MIMO 4 × 4 Frekuensi 1800MHz dengan Dielektrik Artifisial,†Pros. 11th Ind. Res. Work. Natl. Semin., vol. 11 No 1, pp. 26–27, 2020.

F. Chumairoh, “PERANCANGAN DAN REALISASI ANTENA MIKROSTRIP ULTRA WIDEBAND (UWB) PATCH T PADA FREKUENSI 900-2100 MHZ UNTUK 4G,†2019.

H. Ludiyati, Y. N. Rahmawati, T. S. Persada, and D. Taufiqurrohman, “Perancangan antena mikrostrip rectangular menggunakan dielektrik artifisial akrilik untuk transceiver GSM,†JITEL (Jurnal Ilm. Telekomun. Elektron. dan List. Tenaga), vol. 1, no. 1, pp. 33–42, 2021, doi: 10.35313/jitel.v1.i1.2021.33-42.

R. P. Wibowo, “Perancangan Dan Pembuatan Antena Array Dengan Beamwidth ≤ 5 ° Pada Frekuensi S- Band Dengan Menggunakan Elemen Microstrip Bow-Tie,†Tugas Akhir, Fak. Teknol. Elektro, InstitutTeknologi Sepuluh Novemb., pp. 1–114, 2017.




DOI: https://doi.org/10.33387/protk.v10i1.4857

Refbacks

  • There are currently no refbacks.


Creative Commons License
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.



Editorial Office :
Protek : Jurnal Ilmiah Teknik Elektro
Department of Electrical Engineering. Faculty of Engineering. Universitas Khairun.
Address: Jusuf Abdulrahman 53 Gambesi, Ternate City, Indonesia.
Email: protek@unkhair.ac.id, WhatsApp: +6282292852552
This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

View Stat Protek