Pengukuran Dan Pemodelan Serat Optik Dalam Kondisi Terpapar Sinar Matahari
DOI:
https://doi.org/10.29303/jstl.v10i1.541Keywords:
fiber optics, attenuation, sun exposureAbstract
Optical fiber is a transmission line or a type of cable made of glass fiber or plastic which is very fine and smaller than a strand of hair, and can be used to transmit light signals from one place to the recipient. Optical cables that float and hang openly exposed to sunlight, or are embedded exposed to burning rubbish cause additional attenuation which results in signal transmission which causes communication links to break. In this research, measurements and modeling were carried out of conditions assuming an increase in heat that occurred. These conditions are carried out on a laboratory scale. Optical isolation really protects the optical fiber. This modeling will predict the useful life of optical fiber which should be used in 30 years. The measurement results are tabulated and sorted so that the distribution of temperature increases is known.References
Almanda, D., & Ramadhan, A. I. (2014). EVALUASI PERBANDINGAN KABEL NYM 3 x 1, 5mm² MERK ‘A dan B’DI TINJAU DARI TAHANAN PANAS ISOLASI KABELNYA. Prosiding Semnastek, 1(1).
Asril, aprinal, yustini, Y., & Herwita, P. (2019), December 5). Merancang Sistem Pengukuran Redaman Transmisi Kabel Optik Single Mode Jenis Pigtail. Elektron: Jurnal Ilmiah, 56-62.
Darmawan, N. (2017). Analisa Pengembangan Jaringan Fiber Optic Site Nangka Semarang. Anal. Pengemb. Jar. Fiber Opt. Site Nangka Semarang, 11.
Habib, F. (2015). Analisa Rugi-Rugi Serat Optik Menggunakan Optical Time Domain Reflectometer Dengan Aplikasi AQ77932 Emulation. Jurnal Teknik Elektro Universitas Tanjungpura, 2(1).
Hasudungan, H. A., Rambe, A. H., & Siregar, L. A. (2022, July). Analisis Karakteristik Kabel Serat Optik Sebagai Media Transmisi Data. In Prosiding Seminar Nasional Sosial, Humaniora, dan Teknologi (pp. 22-31).
Herwita, P. A. (2019). Merancang Sistem Pengukuran Redaman Transmisi Kabel Optik Single Mode Jenis Pigtail. Elektron: Jurnal Ilmiah, 56-62.
Hidayat, R., Burhanudin, S., & Liklikwatil, Y. (2022). ANALISIS RUGI-RUGI REDAMAN SERAT OPTIK DARI HASIL FUSION SPLICER DAN OTDR. Jurnal Online Sekolah Tinggi Teknologi Mandala, 17(1), 7-15.
https://www.blackbox.co.uk/gb-gb/page/28533/Resources/Technical-Resources/Black-Box-%20Explains/Fibre-Optic-Cable/Multimode-vs-Singlemode-Fibre%20[1%20September%202021].
https://www.bmkg.go.id/iklim/?p=ekstrem-perubahan-iklim
Juwari, J., Jayadi, P., & Sussolaikah, K. (2022). Analisis Redaman Kabel Fiber Optic Patchcord Single Core. JURIKOM (Jurnal Riset Komputer), 9(2), 202-210.
Rosidi, R. A. S., Rosmiati, M., & Zani, T. (2015). Pembuatan Aplikasi Pengukuran Dan Analisis Loss Daya Fiber Optik Menggunakan Matlab. eProceedings of Applied Science, 1(3).
Shafira, A. D., Isnomo, Y. H. P., & Imamuddin, A. M. (2021). Pengaruh Perubahan Suhu terhadap Nilai Panjang Gelombang Fiber Optik yang Difungsikan Sebagai Sensor Suhu. Journal of Telecommunication Network (Jurnal Jaringan Telekomunikasi), 11(1), 17-22.
Sidopekso, S. (2011). Studi Pemanfaatan Energi Matahari Sebagai Pemanas Air. Berkala Fisika, 14(1), 23-26.
Umar, A. (2022). STUDI PENUAAN AKIBAT PANAS PADA BAHAN ISOLASI KABEL INSTALASI TEGANGAN RENDAH. JITEL: Jurnal Ilmiah Teknik Elektro, 1(1), 1-15.
Umaternate, I., Saifuddin, M. Z., & Saman, H. (2016). Sistem Penyambungan dan Pengukuran Kabel Fiber Optik Menggunakan Optical Time Domain Reflectometer (OTDR) pada PT. Telkom Kandatel Ternate. PROtek: Jurnal Ilmiah Teknik Elektro, 3(1), 26-34.
Yadnya, M. S. & Sudiarta I.W (2018), Synthesis of 4G outdoor femtocells under rain conditions in Mataram , AIP Converence 2043.
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