Power Consumption Analysis of ONT (Optical Network Ter-minal) Devices in Indihome Household Usage
Keywords:
Optical Network Terminal, FTTH, Power Consumption, IndiHome, and Energy Efficiency.
Abstract
Optical Network Terminal (ONT) devices are the main components in the Fiber to the Home (FTTH) network used by IndiHome to provide fiber optic-based internet services. ONT operates continuously for 24 hours, so the power consumption of this device contributes to household electricity use. In this final project aims to analyze ONT power consumption under various operational conditions and identify its effect on household electricity loads. The research method includes measuring ONT power consumption using a wattmeter in three usage scenarios: idle (no connected devices), normal (1-3 connected devices), and high load (more than 3 active streaming/gaming devices). Data were collected over several days to identify power consumption patterns. Utilization of power saving modes (if available), and selection of ONTs with better energy efficiency. The results of this study are expected to provide insights for IndiHome users to improve energy efficiency in internet use in households.
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References
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Aryza. S (2024) Enhance Method A Vector Controlled Machine Drive For Minimization Of Electrical Lisses. International Journal In Physical and Applied Sciences.
Aryza, S., Lubis, Z., & Putra, K. (2024, November). An Optimization Of Reliability Electric Power System Based On Internet Of Things (IOT). In PROSIDING SEMINAR NASIONAL FAKULTAS TEKNIK DAN ILMU KOMPUTER UNIVERSITAS DHARMAWANGSA (Vol. 1, No. 1, pp. 109-118).
B. Satria & Aryza, S. (2025). Analysis of Reactive Power Compensation Using Static Compensator (STATCOM) Technology in Distribution Networks. INFOKUM, 13(04), 1280-1291.
Eko Soemarsono, B., Listiasri, E., & Candra Kusuma, G. (2015). Early Detection Device for LPG Gas Leaks. Tele Journal, 13(1), 1–6. https://jurnal.polines.ac.id/index.php/tele/article/view/150
Fauziyah, IN, Harliana, H., & Gigih, MB (2020). Design and Construction of an LPG Gas Leak Detector Using an Arduino-Based MQ-6 Sensor. Intech Scientific Journal: Information Technology Journal of UMUS, 2(01). https://doi.org/10.46772/intech.v2i01.185
Hakim, L., & Yonatan, V. (2017). LPG Gas Leak Detection using an Arduino Detector with the Mandani Fuzzy Logic Algorithm. RESTI Journal (System Engineering and Information Technology), 1(2), 114–121. https://doi.org/10.29207/resti.v1i2.35
Hutagalung, DD (2018). Design of a Gas and Fire Leak Detection Device Using an MQ2 Sensor and Flame Detector. Information Engineering Journal, 7(2), 1–11.
Iksal, I., Sumiati, S., & Harizal, H. (2020). Design and Construction of a Prototype for Early Handling and Detection of LPG Leaks Based on a Microcontroller via SMS. PROSISKO Journal, 3(2), 26–32.
Inggi, R., & Pangala, J. (2021). Design of an LPG Gas Leak Detection Device Using an Arduino-Based MQ-2 Sensor. Simkom, 6(1), 12–22. https://doi.org/10.51717/simkom.v6i1.51
Kurnia Hadi, T. (2022). Analysis of the Design of an LPG Gas Leak Detection Tool Based on the MQ-2 Sensor and Arduino Uno. Jurnal Minfo Polgan, 11(2), 105–108. https://doi.org/10.33395/jmp.v11i2.11804
Mara, IM, Bawa Susana, IG, Alit, IB, Adhi WA, IGAKC, & Wirawan, M. (2023). Counseling on Fire Hazard Prevention from Household LPG Stove Use. Jurnal Karya Pengabdian, 5(1), 9–15. https://doi.org/10.29303/jkp.v5i1.146
Puspaningrum, AS, Firdaus, F., Ahmad, I., & Anggono, H. (2020). Design of a Gas Leak Detection Tool on an Android Mobile Device with an Mq-2 Sensor. Journal of Embedded Technology and Systems, 1(1), 1Puspaningrum, AS, Firdaus, F., Ahmad, I., An. https://doi.org/10.33365/jtst.v1i1.714
Ridwan, M. (2021). Design and Construction of an IoT-Based LPG Gas Leak Detection System. Journal of Science and Applied Sciences, 4(1), 35–39. https://doi.org/10.59061/jsit.v4i1.94
Roihan, A., Permana, A., & Mila, D. (2016). GAS LEAK MONITORING USING ARDUINO UNO and ESP8266 MICROCONTROLLERS BASED ON THE INTERNET OF THINGS. ICIT Journal, 2(2), 170–183. https://doi.org/10.33050/icit.v2i2.30
Suprianto, G., Alya Rizky Natasya, & Arfi Indra Riskiawan. (2023). IoT-Based Gas Leak Detection System as a Tool for MSMEs. Journal Zetroem, 5(1), 62–67. https://doi.org/10.36526/ztr.v5i1.2631
Wibawa, P. S., Tarigan, A. S. P., & Aryza, S. (2022). Comparisonal analysis study of power loss at the connection point of pierching connector with line tap connector on 220 V Low voltage network at PT. PLN (Persero) ULP Stabat. INFOKUM, 10(03), 398-404.
Published
2025-08-25
How to Cite
Amos Marganda Girsang, Ahmad Dani, & Solly Aryza. (2025). Power Consumption Analysis of ONT (Optical Network Ter-minal) Devices in Indihome Household Usage. INFOKUM, 13(05), 1825-1837. Retrieved from https://www.infor.seaninstitute.org/index.php/infokum/article/view/3011
