A Compact Design of 4×4 Butler Matrix with Four Linear Array Antenna at 38 GHz

  • Yusnita Rahayu Universitas Riau, Indonesia
  • J. R. M Simanihuruk Universitas Riau, Indonesia
  • Yuyu Wahyu National Research and Innovation Agency, Indonesia
DOI: https://doi.org/10.31258/ijeepse.5.3.80-85
Abstract viewed: 202 times
pdf downloaded: 269 times
Keywords: Beam Forming Network, Butler Matrix, Five Generation (5G) antenna


This paper creates a compact design of a 4×4 butler matrix integrated with an array of antenna elements at 38 GHz frequency. The antenna simulation performance is acceptable, approaching the ideal one. The butler matrix can generate four beams through the output port directly. Each input port 1, 2, 3, and 4 has beam direction, which is 42°, -19°, 19°, and -42°, respectively. The phase difference between output ports of the butler matrix is approaching 45° and 135°. Besides, antenna patch simulation has a good performance. The results are still acceptable after combining the butler matrix and four linear array antenna.


C. Smansub, B. Purahong, P. Sithiyopasakuland C. Benjangkaprasert. “ A study of Network Bandwidth Management By Using Queue Tree Per Connection Queue”. Journal of Physics: Conference Series, Volume 1195, 2018 11th International Conference on Computer and Electrical Engineering ,Tokyo, Japan, 12–14 October 2018.

Leonardi, Luca, Lucia Lo Bello, and Simone Aglianò. "Priority-Based Bandwidth Management in Virtualized Software-Defined Networks" Electronics 9, no. 6: 1009, 2020.

Velina Pencheva; Ivaylo Atanasov. “Application level extension of bandwidth management in radio access network”. International Journal of Reasoning-based Intelligent Systems (IJRIS), Vol. 12, No. 3, 2020.

H M Isam, B L Ong, R B Ahmad, M Elshaikh and I Al-Mejibli . “ An Overview of Enhance Bandwidth Management In Cellular Network”. IOP Conference Series: Materials Science and Engineering, Volume 767, 1st International Symposium on Engineering and Technology (ISETech) 2019, Perlis, Malaysia, 23 December 2019

Mustapha, Oba Zubair, et al. "Evaluation of Bandwidth Management Technique using Dynamic LSP Tunnelling and LDP in MPLS for Sustainable Mobile Wireless Networks." International Journal of Computing and Digital Systems, vol. 9, pp. 147, 2020.

Prasetyo, B. Implementasi Manajemen Bandwidth dan Filtering Web Access Contr. ol Menggunakan Metode Address List. JIKA, 6-7, 2019.

Husnaini, M., e.t. Implementasi Fitur Layer 7 Protocols MIKROTIK RB750 di SMKN 1 NARMADA. JIRE, Vol. 2 No. 1, 11, 2019.

Hambali. Use of Rb941-2nd Routerboard Microtic Using on LAN Network Laboratory. International Conference on Social, Sciences and Information Technology (hal. 6). Kisaran: ICoSSIT, 2020.

Hartati, T., & Rahayu, C. Implementasi Autentikasi Keamanan dan Manajemen Bandwidth pada Jaringan Internet di SDN 001 SEKUPANG. OSF Preprints, 10, 2020.

Noor, E., & Chandra, J. C. Implementasi Firewall pada SMP YADIKA 5 JAKARTA. IDEALIS, Vol. 3 No. 1, 2020.

Rahman, T. Analisis Performa RouterOS MikroTik pada Jaringan Internet. INOVTEK, VOL. 5 NO. 1, 2020.

Suryadi, A. Analisis Perbandingan Bandwidth Management Menggunakan Metode CBQ dan HTB untuk Meningkatkan Layanan Akses Internet. Jurnal Ilmu Sosial, Pendidikan, dan Humaniora, Vol. 3, No. 2, 6, 2020.

E. Safrianti, L. O. Sari, and R. A. Mahan, “Optimization of Universitas Riau Data Network Management Using Software Defined Network (SDN)”, IJEEPSE, vol. 2, no. 3, pp. 10-14, Oct. 2019.

E. Safrianti, “Peer Connection Classifier Method for Load Balancing Technique ”, IJEEPSE, vol. 4, no. 1, pp. 127-133, Feb. 2021.

Tulloh, D. M. Analisis Jaringan Akses Internet Menggunakan Mikrotik Router OS di SMK TUNAS HARAPAN dengan Optimalisasi Load Balancing Menggunakan Parameter QoS (Quality of Service). Jurnal PINTER, Vol. 4, No. 1, 4, 2020.

Yaqin, A., & Firmansyah. Development of a Network Security System with Mikrotik in SMK Muhammadiyah 2 Kuningan. Jurnal MANTIK, Vol. 4 No.1, 2020.

How to Cite
Y. Rahayu, J. R. M. Simanihuruk, and Yuyu Wahyu, “A Compact Design of 4×4 Butler Matrix with Four Linear Array Antenna at 38 GHz”, IJEEPSE, vol. 5, no. 3, pp. 80-85, Nov. 2022.