Power Outage Sensing Device based on IOT for Service Quality Evaluation in the PLN Distribution System

Authors

  • Adryan Fahri Zul Fauzi universitas Bhayangkara Surabaya
  • Agus Kiswantono universitas Bhayangkara Surabaya
  • saidah saidah universitas Bhayangkara Surabaya

DOI:

https://doi.org/10.26418/elkha.v13i2.43741

Keywords:

CAIDI, CAIFI, Optocoupler, WEMOS D1

Abstract

In overcoming electrical disturbances, PLN implements an equipment protection system that aims to reduce the areas experiencing power outage. However, this protection system has not been integrated with the SCADA system. As a parameter to maintain customer service continuity, PLN uses customer-based indexes, i.e., the Customer Average Interruption Duration Index (CAIDI) and Customer Average Interruption Frequency Index (CAIFI). In the calculation of those index values, the record of power outage occurrence at PLN is still not accurate because the duration and frequency of power outage based on customer complaints. In this study, a Power Outage Sensing device is installed on the secondary distribution system transformer 380/220 which can ensure the location, record the frequency and duration of power outage and serve customers in real time based on IOT using WEMOS D1 and optocoupler sensors which can then be accessed on a web. In its implementation, all power outage is recorded in the database and can be accessed on the web interface. This device can speed up the recovery of disturbances in the system after an outage and perform accurate CAIDI and CAIFI index calculations as customer service evaluations.

Author Biographies

Agus Kiswantono, universitas Bhayangkara Surabaya

Universitas Bhayangkara Surabaya

saidah saidah, universitas Bhayangkara Surabaya

Department of Electrical Engineering, Universitas Bhayangkara Surabaya

References

Q. Lujin, H.O Cuijuan, JIN Huawei, LI Meng, WANG Ying, ''CIM-Based Fault Detection Analysis of Distribution Systemâ€. The International Conference on Advanced Power System Automation and Protection, 2011.

Daniel B. Koch,â€An Internet of Things Approach to Electrical Power Monitoring and Outage Reportingâ€, IEEE 978-1-539-3/17, 2017.

SPLN 59. “Keandalan Pada Sistem Distribusi 20 KV dan 6 KV†Jakarta : Departemen Pertambangan dan Energi Perusahaan Umum Listrik Negara, 1985.

Pandiana, A. S., R.Permana, “Rancang Bangun Pelaporan Padam Listrik Pada Area Gardu Trafo Distribusi Menggunakan Mikrokontrolerâ€, Tugas Akhir, Institut Teknologi Sepuluh Nopember, Surabaya, 2015.

Fauzi, A.F.Zul, “Alat Pemantau Padam Listrik Untuk Penentuan Nilai Saidi Saifi Sebagai Bahan Evaluasi Kehandalan Sistem Distribusi Tenaga Listrik Berbasis Arduino Unoâ€, Universitas Diponegoro, Semarang, 2016.

S. Yuliatri , “Alat Pelapor Padam Listrik Pada Area Gardu Trafo Distribusi Guna Menentukan Nilai Saidi Saifi Berbasis Arduinoâ€, Fakultas Vokasi Institut Teknologi Sepuluh Nopember Surabaya 2017

Malvino, Albert Paul, “Prinsip-Prinsip Elektronikaâ€. Jakarta : Salemba Teknika, 2018.

T.T. Saputro., “Wemos D1, Board ESP8266 Yang Kompatible Dengan Arduino†Embeddednesia. com. https://embeddednesia.com/v1/wemos-d1-board-esp8266-yang-kompatible-dengan-arduino/. 2017

Prasetyo, Dery. “Fuse Cut Out Sebagai Pengaman Jaringan Distribusi Satu Fasa Di Penyulang Tambak Lorok 7 Rayon Semarang Timur†Universitas Diponegoro: tidak diterbitkan, 2014.

D. Kho, “Mengenal IC 555 (IC Timer) dan Konfigurasi kakinya, Teknik Elektronika†https://teknikelektronika.com /pengertian-mengenal-ic-555-ic-timer-konfigurasi-kaki-ic555/. dilihat 26 Agustus 2019.

Kadir, Abdul..â€Panduan Praktis Mempelajari Aplikasi Mikrokontroller Arduinoâ€.Jakarta: Andi Publisher, 2014.

Yuwono, Teguh, “Transformator. Semarang: Bahan Ajar Program Diploma III Fakultas Teknik Universitas Diponegoroâ€. 2003.

Downloads

Additional Files

Published

2021-10-22

Issue

Section

Vol. 13 No. 2 October 2021