Design of an Over Current Relay (OCR) System on a Distribution Network Using a Raspberry Pi

Yuli Prasetyo, Budi Triyono, Dimas Nur Prakoso, R. Jasa Kusumo Haryo

Abstract


Disturbances in the electrical installation system will be detrimental to electricity users because it can cause power outages. Therefore we need a protection system that can overcome disturbances such as the use of Over Current Relay (OCR). With OCR can overcome interference quickly and can prevent equipment damage. OCR interference occurs if the current read on sensor 1 is more than 10.5 A, then relay 1 will work after a disturbance of 5 seconds. The indicator light on the PLN side will be red. Meanwhile, if the current at sensor 2 is more than 10 A, then relay 2 will work after a disturbance for 5 seconds. The indicator light on the customer side will be red. Short circuit disturbance occurs if the current read on sensor 1 is more than 20.5 A, then relay 1 will work after an interruption of 2 seconds. The indicator light on the PLN side will be red. Meanwhile, if the current on sensor 2 is more than 20 A, then relay 2 will work after a disturbance for 2 seconds. The indicator light on the customer side will be red.


Keywords


Relay Arus Lebih, Gangguan, Sistem Proteksi

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References


B. Olanda and D. Susilo, “Desain dan Rancang Instalasi Listrik Sederhana Skala Rumah Tangga,” ELECTRA Electr. Eng. Artic., vol. 1, no. 2, p. 7, 2021.

I. Caesar Pamungkas, P. Iswahyudi, P. Studi Teknik Listrik Bandar Udara, and P. I. Penerbangan Surabaya Jl Jemur Andayani, “Rancang Bangun Prototipe Proteksi Sistem Distribusi Tegangan Rendah Berbasis Mikrokontroler Via Wi-Fi Di Politeknik Penerbangan Surabaya,” Semin. Nas. Inov. Teknol. Penerbangan Tahun, no. September, pp. 1–6, 2018.

A. R. Nugraha and S. Choerunnisa, “Strategi Manajemen Krisis Humas Pln Uid Jabar Dalam Menangani Blackout Jaringan Jawa Bagian Tengah,” Communiverse J. Ilmu Komun., vol. 5, no. 2, pp. 137–150, 2020.

A. Panuntun, “Efektivitas Strategi Komunikasi Humas Pt Pln Area Garut ( Studi Kualitatif Humas Pt Pln Area Garut Dalam Sosialisasi Meminimalisir Dampak Kerugian Akibat Layang-Layang ),” vol. 6, no. 1, pp. 1484–1497, 2019.

C. Himawan, “JAWA BARAT Chairunnas Himawan , Sylvana Murni Deborah Hutabarat Universitas Pembangunan Nasional Veteran Jakarta,” vol. 5, no. 2, 2020.

R. Masarrang, L. S. Patras, H. Tumaliang, and A. P. S. Transmisi, “Efek Korona pada Saluran Transmisi Gardu Induk Tello Sulawesi Selatan,” J. Tek. Elektro dan Komput., vol. 8, no. 2, pp. 67–74, 2019.

M. Marwan, R. L, and N. M. Samsul, “Analisis Gangguan Tidak Seimbang pada Line Transmisi GI Sungguminasa-GI Tallasa,” INTEK J. Penelit., vol. 3, no. 2, p. 102, 2016.

A. Azis, “ANALISIS SISTEM PROTEKSI ARUS LEBIH PADA PENYULANG CENDANA GARDU INDUK BUNGARAN PALEMBANG,” vol. 4, no. 2, pp. 332–344, 2019.

Y. Afrida, J. Jeckson, and Ancolo, “Analisis Gangguan Earth Fault pada Penyulang Hujan Gardu Induk Teluk Betung,” Electrician, vol. 15, no. 3, pp. 168–174, 2021.

I. G. P. Arka, N. Mudiana, and K. Abasana, “Analisis Arus Gangguan Hubung Singkat Pada Penyulang 20 Kv Dengan Over Current Relay ( OCR ) Dan Ground Fault Relay ( GFR ) Analysis of Short Circuit Current in the 20 Kv Feeder By Using Over Current Relay ( OCR ) and Ground Fault Relay ( GFR ),” J. Log., vol. 16, no. 1, pp. 46–52, 2016.

E. Dermawan and R. L. Rahman, “Analisis Pengaruh Distorsi Harmonisa terhadap Deviasi Pengukuran Energi Listrik pada kWh Meter,” J. Elektrum, vol. 15, no. 2, pp. 7–16, 2018.

T. P. Satya, F. Puspasari, H. Prisyanti, and E. R. Meilani Saragih, “Perancangan Dan Analisis Sistem Alat Ukur Arus Listrik Menggunakan Sensor Acs712 Berbasis Arduino Uno Dengan Standard Clampmeter,” Simetris J. Tek. Mesin, Elektro dan Ilmu Komput., vol. 11, no. 1, pp. 39–44, 2020.

P. R. Adam, Purwanto Gendroyono, and Nur Hanifah Yuninda, “Monitoring Suplai Tegangan Pada Motor Induksi Tiga Fasa Menggunakan Mikrokontroler Arduino Dan Sensor Tegangan Zmpt101B,” J. Electr. Vocat. Educ. Technol., vol. 5, no. 2, pp. 37–43, 2020.

R. Andreansyah, “Perencanaan Dan Pembuatan Rangkaian Daya Starting Motor 3 Fasa , 380 Volt ,50 Hz, 3 Hp Dengan Metoda Bintang (Y) – Segitiga (∆),” Cyclotron, vol. 2, no. 1, 2019.




DOI: https://doi.org/10.52626/joge.v2i1.13

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