Prototype of Electrical Power Breaker Automation ON PHB-TR Using Microcontroller-Based IOT For Flood-Prone Areas
DOI:
https://doi.org/10.32497/eksergi.v21i02.6497Keywords:
Flood Simulation, Controller, MCCB, MCB, Internet of Things (IoT), MicrocontrollerAbstract
The flood disaster caused losses for PT PLN consumers whose areas were flooded. To prevent electric shock accidents due to flooding, PT PLN took steps to extinguish distribution substations whose areas were affected by flooding. This step was taken to maintain the safety of the flood-affected community from being electrocuted, but this resulted in a loss for PT PLN, namely the selling kWh that was not distributed. In this study, the method used is research and development, where the author makes an idea to overcome the problem of the length of power outage due to flooding by making a PHB-TR Control Prototype for Distribution Substations. Where this prototype is an innovation to replace the main switch on the PHB-TR with MCCB and MCB which are applied in the box panel. With this prototype, PT PLN officers can speed up the process of blackout areas experiencing flooding quickly by controlling the MCCB and MCB at the PHB-TR distribution substation from the PLN office, but still maintaining the reliability of the 20 kV Medium Voltage Network. This prototype is based on the Internet of Things that can be controlled remotely using the Blynk application that can be operated from smartphones and computers. This prototype design is expected to help PLN officers to cut off the PHB-TR load from the PLN office or remotely, as well as some of the benefits that PT PLN can receive from this tool innovation, namely saving kWh that is not channeled and a positive image for PT PLN will be maintained by maintain the reliability of the electrical distribution system.References
[1] Suripin. 2014. Sistem Drainase yang Berkelanjutan. Edisi Pertama. Yogyakarta: Andi.
[2] PT PLN (Persero). 2010. Buku 1: Kriteria Desain Enjiniring Konstruksi Jaringan Distribusi Tenaga Listrik. Jakarta: PT PLN (Persero).
[3] J. Lianda & D. Handarly, Adam. Sistem Monitoring Konsumsi Daya Listrik Jarak Jauh Berbasis Internet of Things (IoT). JTERA (Jurnal Teknologi Rekayasa). 2019; 4(1):79-84.
[4] Agung Ayu Putri, Gusti, Made Ika Marini Mandenni, Ni. Desain Saklar Otomatis untuk Kontrol Peralatan Listrik di Bangunan. Jurnal Ilmiah Merpati (Menara Penelitian Akademika Teknologi Informasi). 2019; 7(1):12-20.
[5] T. D. Hendrawati, Y. D. Wicaksono, E. Andika. Internet of Things: Sistem Kontrol Monitoring Daya Perangkat Elektronika. JTERA (Jurnal Teknologi Rekayasa). 2018; 3(2):177-184.
[6] Alipudin, Muhammad Asep. Rancang Bangun Alat Monitoring Biaya LIstrik Terpakai Berbasis Internet of Things (IoT). Jurnal Online Mahasiswa (Jom) Bidang Elektro. 2018;1(1):1-11.
[7] Aprilianti, S. 2019. Pemeliharaan ABSW Guna Menurunkan Angka SAIDI dan SAIFI di PLN UP3 Purwokerto. Yogyakarta: Universitas Gajah Mada
[8] Indra, G & Taufik, A. 2020. Prototipe Penerapan Internet of Things (IoT) pada Monitoring Level Air Tandon Menggunakan NodeMCU ESP8266 dan Aplikasi Blynk. Nusa Tenggara Barat: Universitas Hamzanwadi.
[9] Aris. S., Dedy. S., Elang. D. 2019. Catu Daya Digital Menggunakan Modul Step Down LM2596 Berbasis Arduino Uno R3. Pontianak: Universitas Tanjungpura.
[10] Rinaldy, Risa. F. C. 2013. Pengendalian Motor Servo yang Terintegrasi dengan Webcam Berbasis Internet dan Arduino Uno. Purwokerto: Sekolah Tinggi Teknologi Telematika Telkom.
[11] Indah, C. & Wildian. 2022. Rancang Bangun Alat Pemantau Biaya Pemakaian Energi Listrik Menggunakan Sensor PZEM-004T dan Aplikasi Blynk. Padang: Universitas Andalas.
[12] D. Aribowo, G. Priyogi, and S. Islam, “Aplikasi Sensor Ldr (Light Dependent Resistor) Untuk Efisiensi Energi Pada Lampu Penerangan Jalan Umum,” 2022.
[13] F. Arifin et al., “Aplikasi Sensor LDR (Light Dipendent Resistor) Pada Fitting Lampu Untuk Efisiensi Energi Pada Lampu Penerangan Pondok Pesantren Nurul Jadid Wilayah Zait Bin Tsabit (K),” Prosiding Seminar Hi-Tech, vol. 2, no. 1, 2023, [Online]. Available: https://ejournal.unuja.ac.id/index.php/hitech
[14] A. Hilal and S. Manan, “Pemanfaatan Motor Servo Sebagai Penggerak Cctv Untuk Melihat Alat-Alat Monitor Dan Kondisi Pasien Di Ruang Icu,” Gema Teknologi, vol. 17, no. 2, Aug. 2015, doi: 10.14710/gt.v17i2.8924.
[15] K. Asparuhova, D. Shehova, and S. Lyubomirov, “Using Proteus to Support Engineering Student Learning: Microcontroller-Driven Sensors Case Study,” in 2018 IEEE XXVII International Scientific Conference Electronics - ET, IEEE, Sep. 2018, pp. 1–4. doi: 10.1109/ET.2018.8549587.
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