Perancangan Jaringan Fiber To The Home Berbasis Gigabit Passive Optical Network Dengan Dual Stage Passive Splitter
Abstract
Abstract— This study was conducted to find out which network is more effective and the quality of the existing network, Design A, and Design B at Wongaya Cluster. Existing network has 368 homepass, with 259 homeconnected users. Using the Farthest FAT (F.8) output attenuation of field measurement was -20.11 dBm, the optisystem test obtain an output attenuation -19.954 dBm, and based on power link budget calculation, output attenuation was -20.399 dBm. Existing network has a projection for the next five years of 462 users. Design A has 496 homepasses and tested on farthest FAT (G.4) testing on the optisystem to obtain an output attenuation of -19.704 dBm, and based on the calculation of the power link budget, an output attenuation of -20.7414 dBm was obtained. Design B has 256 homepasses and tested on the furthest FAT (H.4) testing on the optisystem to obtain an output attenuation of -16.765 dBm, and based on calculation of the power link budget, output attenuation was -17.09175 dBm. Based on results of this test, Design A is more effective design to use because it can meet customer needs in five years with quality according to ITU-T and Company standards.
Keywords— FTTH, GPON, attenuation, homepass, homeconnected, link power budget
Downloads
References
[2] R. Dewantara, P. A. Cakranegara, A. J. Wahidin, A. Muditomo, I. Gede, and I. Sudipa, “Implementasi Metode Preference Selection Index Dalam Penentuan Jaringan Dan Pemanfaatan Internet Pada Provinsi Indonesia,” 2022.
[3] Asosiasi Penyelenggara Jasa Internet Indonesia and Indonesia Survey Center, “Survei Internet APJII 2019-2020 (Q2),” 2020.
[4] “INSTRUKSI MENDAGRI NOMOR 3 TAHUN 2021,” 2021.
[5] “SURAT EDARAN GUBERNUR PROVINSI BALI NOMOR 3 TAHUN 2021,” 2021.
[6] A. A. E. Paramarta, G. Sukadarmika, and P. K. Sudiarta, “Analisis Kualitas Jaringan Lokal Akses Fiber Optik Pada Indihome PT. TELKOM di Area Jimbaran,” Teknologi Elektro, vol. 16, 2017.
[7] A. Muharor, B. Panjiasmara, and Z. Bonok, “ANALISIS PENTRANSMISIAN FIBER OPTIK SALURAN UDARA PADA PANJANG GELOMBANG 1310 nm Dari Optical Distribution Point (ODP)-Optical Network Termination (ONT),” Jambura Journal of Electrical and Electronics Engineering, 2019.
[8] I. Hanif and D. Arnaldy, “Analisis Penyambungan Kabel Fiber Optik Akses Dengan Kabel Fiber Optik Backbone Pada Indosat Area Jabodetabek,” 2017.
[9] B. Dermawan, I. Santoso, and T. Prakoso, “ANALISIS JARINGAN FTTH (FIBER TO THE HOME) BERTEKNOLOGI GPON (GIGABIT PASSIVE OPTICAL NETWORK),” 2016.
[10] A. Delano and D. W. Astuti, “PERANCANGAN JARINGAN FTTH KONFIGURASI BUS DUAL STAGE PASSIVE SPLITTER UNDERGROUND ACCESS DI CLUSTER MISSISIPI, JAKARTA GARDEN CITY,” 2017.
[11] A. Fitriyani, T. N. Damayanti, and M. S. Yudha, “Perancangan Jaringan Fiber To The Home (FTTH) Perumahan Natendah Kopo,” e-Proceeding of Applied Science, vol. 1, p. 1404, 2015.
[12] S. P. Toago, Alamsyah, and A. Amir, “PERANCANGAN JARINGAN FIBER TO THE HOME(FTTH) BERTEKNOLOGI GIGABIT PASSIVE OPTICAL NETWORK(GPON) DIPERUMAHAN CITRALAND PALU,” Jurnal MEKTRIK, 2014.
[13] Rian Jepri, “PERANCANGAN JARINGAN AKSES FIBER TO THE HOME (FTTH) MENGGUNAKAN TEKNOLO GIGIGABIT PASSIVE OPTICAL NETWORK (GPON),” JURNAL TEKNIK ELEKTRO UNIVERSITAS TANJUNGPURA, vol. 2, 2014.
[14] I. Mahjud et al., “Perancangan Jaringan Fiber To The Home (FTTH) PT. Telkom Indonesia (Persero) Tbk Witel Makassar di Desa Bontomanai Bulukumba,” Jurnal Teknologi Elekterika, vol. 19, no. 2, p. 123, May 2022, doi: 10.31963/elekterika.v6i2.3803.
[15] D. Rahmayanti, Z. Azyati, and A. R. Utami, “Analisa Performansi Jaringan Telekomunikasi Fiber to the Home (FTTH) Menggunakan Metode Power Link Budget Pada Kluster Bhumi Nirwana Balikpapan Utara,” vol. 6, no. 1, 2022, doi: 10.22373/crc.v6i1.11841.
[16] Y. Yustini, A. A. Asril, H. N. Nawi, R. Hafizt, and A. Warman, “Implementasi dan Perfomansi Jaringan Fiber To The Home dengan Teknologi GPON.,” Jurnal Teknologi Elekterika, vol. 5, no. 2, p. 59, Nov. 2021, doi: 10.31963/elekterika.v5i2.3032.
[17] F. Pahlawan et al., “Perancangan Jaringan Akses Fiber To The Home (FTTH) Menggunakan Teknologi Gigabit Passive Optical Network (GPON): Studi Kasus Perumahan Graha Permai Ciputat,” vol. 2, 2017.
[18] S. Ridho et al., “Perancangan Jaringan Fiber to the Home (FTTH) pada Perumahan di Daerah Urban (Fiber to the Home (FTTH) Network Design at Housing in Urban Areas),” 2020.
[19] I. P. G. Y. Pratama, G. Sukadarmika, and P. K. Sudiarta, “Perancangan Jaringan Fiber To The Home (FTTH) Menggunakan Teknologi Gigabyte Passive Optical Network (GPON) pada Mall Park23 Tuban,” Teknologi Elektro, vol. 16, 2017.
[20] I. P. Y. P. Putra, P. Ketut Sudiarta, and G. Sukadarmika, “Studi Perbandingan Jaringan Optik Eksisting dengan Gigabit Passive Optical Network (GPON) di Kampus Universitas Udayana Bukit Jimbaran,” 2018.
[21] G 984, “ITU-T Rec. G.984.1 (03/2008) Gigabit-capable passive optical networks (GPON): General characteristics,” 2008.
[22] “ITU-T Characteristics of a single-mode optical fibre and cable,” 2016. [Online]. Available: http://handle.itu.int/11.1002/1000/11
[23] D. Rahmayanti, Z. Azyati, and A. R. Utami, “Analisa Performansi Jaringan Telekomunikasi Fiber to the Home (FTTH) Menggunakan Metode Power Link Budget Pada Kluster Bhumi Nirwana Balikpapan Utara,” vol. 6, no. 1, 2022, doi: 10.22373/crc.v6i1.11841.
[24] Badan Pusat Statistik Kabupaten Tabanan, “Kecamatan Penebel Dalam Angka 2021,” 2021.
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
This work is licensed under a Creative Commons Attribution 4.0 International License