Network Performance Analysis Using Optical-to-RJ11 Converters in Point-to-Point Communication
DOI:
https://doi.org/10.33795/jartel.v14i3.5301Keywords:
Fiber Optic, Point-toPoint, Converter, RJ11, Bending, LossAbstract
Currently, fiber optic cable is the most sophisticated transmission medium and is starting to be widely used for data transmission. However, like any other transmission medium, fiber optic cables also produce attenuation or loss. This study analyzes network performance using 2 converters that will be connected to RJ11 telephones and single mode optical cables with predetermined specifications. Analysis on this network is carried out to determine the results of the attenuation value and sound quality on the fiber optic network. The data collection technique that was carried out began with designing the research materials. The materials used are single mode fiber optic cables, RJ11, converters, telephone servers, and telephones as information senders and receivers. Measuring tools used are Sound Spectrum analyzer and OPM. Conducted research by changing the bending of fiber optic cable in order to determine the performance of the communication system. The results are loss values as well as sound output on the fiber optic cable . The quality of network performance based on the measured bending loss values has different results. The smallest loss occurs at 5 cm bending which is -11.46 dBm and the largest at 0.5 cm bending is -50.00 dBm. The bending value used also affects the quality of the sound emitted on the telephone, where at the largest bending, which is 5 cm, the sound output power value is 77.475 dB. Meanwhile, when the smallest bending is 0.5 cm, the resulting value is only around 49.7 dB
References
Sejati, Guntur Wahyu. 2018. “Design Of A Two-Way Digital Audio Communication System Using Arduino At 2.4 Ghz Frequency”. Department Of Electrical Engineering, State Polytechnic Of Malang.
Hafidhotunnis, Ummi. 2018. “Implementation Of Voice Transmission Via Optical Fiber Using Different Leds”. Department Of Electrical Engineering, State Polytechnic Of Malang.
Saputra, Bambang Eka. 2019. “Design And Build A Video Chat Server With Raspberry Pi As An Access Point For Worker Communication In Areas Without Signal”. Department Of Electrical Engineering, State Polytechnic Of Malang.
Selamet, Rachmat. 2017. Socket Programming In Java. Bandung: Likmi College Of Information And Computer Management
Tua Lesmana, Indra, 2017, Data Transfer Analysis Using Socket Programming (Case Study: Moving Vehicles). Bandung: Bandung State Polytechnic.
Fajar, Ahmad Nurul. 2006. Socket Programming With Java In Developing Software With Client Server Architecture. Jakarta: Uieu.
Ummi Hafidhotunnisa, Yoyok Heru.P.I, Waluyo (2016). Implementation Of Voice Transmission Via Optical Fiber Using Different Leds. Department Of Electrical Engineering, State Polytechnic Of Malang.
Adiati, Rima Fitria Kusumawardhani,Apriani Setijono, Heru. Analysis Of Signal To Noise Ratio And Bit Error Rate Parameters In The Lamongan-Kebalen Segment Fiber Optic Communication Backbone.
Rusdi Wartapane, Nur Aminah. Testing, Measuring And Analyzing Attenuation Values Due To Coupling Of Optical Fibers In Optical Transmission Lines. Ujung Pandang State Polytechnic Electrical Engineering
Lestari, V. A., T, T. N. D. S., Stat, B. U. S., Terapan, F. I., Bandung, K., Budget,
L. P., & Budget, R. T. (2018). Fiber Optical Network Design For Bumi Adipura Cluster Solutions Optical Fiber Network Design For Bumi Adipura Cluster Solutions The Following Are The Devices Used For The Fiber Optic Network In Fiber To The Home. Optical Line Terminal (Olt. 4(3), 2421–2429.
Pamungkas, N. S., Hambali, I. A., & Saputri, D. M. (2017). Performance Analysis Of Xg-Pon Technology Using Splitter Performance Analysis Of Xg-Pon Technology With Splitter. 4(3), 3595–3602.
Prayudha, B. R., Wahyudi, E., & Zulherman, D. (2018). Fiber To The Home (Ftth) Network Performance Using Splitters 1: 64. 321–325.
T. Lee, K. J. Runta And E. 8. Hara, A Digital Multiplexed Fiber Optic Transmission System For Analog Audio Signals, Faculty Of Engineering University Of Regina Regina, Saskatchewan Canada,
Aratake, Atsushii. High Reliability Of Silica-Based 1 × 8 Optical Splitter Modules For Outside Plant.
Asada, Hideyuki Yamada, Takashi Rabou, Nabil Abd Ikeda, Hiroaki Shimodaira, Yoshifumi, Optical Fiber
