Sistem Automatic Transfer Switch (ATS) Terintegrasi PLN-Panel Surya Berbasis Time Delay Relay (TDR) untuk Beban Ruang Praktik Siswa

Authors

  • Mohammad Wahyudin Universitas Pamulang
  • Edy Sumarno Universitas Pamulang
  • Sunardi Sunardi Universitas Pamulang
  • Kartika Sekarsari Universitas Pamulang

DOI:

https://doi.org/10.55606/jurritek.v4i3.6804

Keywords:

ATS, Inveter, Light intensity, Solar Panel, TDR

Abstract

The availability of electrical energy is one of the important factors during learning activities. However, because the electrical system can be said to be very complicated, starting from the generator center all the way to the consumer, there will most likely be a disruption that causes the flow of power to the consumer to be cut off. One of the factors that affect includes environmental factors, maintenance and other factors, so that the learning process is slightly hampered. The purpose of this research is to maintain electricity supply by automatically switching sources and utilizing renewable energy as a reserve for lighting students' practice rooms. Therefore, a system is needed that automatically regulates the switching of primary sources to backup sources. Automatic Transfer Switch or ATS is a device that automatically switches the main power source from PLN to a backup source such as solar panels by setting the time using Time Delay Relay (TDR). TDR functions to regulate the duration of the power source change operation to meet load needs, especially on small loads such as student practice rooms with a voltage of 220 Volts in one language. The advantage of this system is that it is able to automatically switch electricity supply between PLN and Solar Panels with a controlled time lag. The research method involves the installation of electrical panels and Solar Panels using Solar Charger Controller or SCC, Inverter devices. At the time of the study, the adjustment of the TDR setting to set the time lag on the ATS. SCC settings are carried out to obtain Inputs and Outputs in the optimal battery charging process where the measurement results show that When the load of the incandescent lamp is increased from 50Watt to 300Watt, the current increases from 4.47A to 25.2A, while the voltage decreases from 11.7V to 9.8V. In conclusion, the greater the load, the solar panel voltage decreases and the current increases. The results of the study show that the implementation of the automatic transfer switch system is able to automatically switch the electricity supply between PLN and Solar Panels with a controlled time lag.

Downloads

Download data is not yet available.

References

Aita Diantari, R., Erlina, & Widyastuti, C. (2017). Studi penyimpanan energi pada baterai PLTS. Jurnal Energi dan Kelistrikan, 9(2). https://doi.org/10.33322/energi.v9i2.48

Andriyono, D. (2020). Merancang automatic transfer switch (ATS) PT. SWI Jetty Nusantara [Skripsi, Universitas Teknologi Yogyakarta].

Bakhtiar, & Tadjuddin. (2020). Pemilihan solar charge controller (SCC) pembangkit listrik tenaga surya. Bidang Ilmu Teknik Elektro, Teknik Komputer & Jaringan, Teknik Mekatronika, Telekomunikasi.

Fathansyah. (2012). Basis data (Edisi revisi). Informatika.

Felycia, Safaah, E., & Anwar, R. (2022). Rancang bangun sistem ATS (automatic transfer switch) dan AMF (automatic main failure) 1 fasa secara otomatis. Jurnal ProTekInfo, 9(2). https://doi.org/10.30656/protekinfo.v9i2.5260

Gunawan, E., & Wahyono, E. (2017). Rancangan instalasi lampu penerangan jalan umum dengan sistem kontaktor dan timer. Cahaya Bagaskara: Jurnal Ilmiah Teknik Elektronika, 1(1), 36–44.

Pakpahan, R., Ramadan, D. N., & Hadiyoso, S. (2016). Rancang bangun dan implementasi automatic transfer switch (ATS) menggunakan Arduino Uno dan relai. Jurnal Elektro dan Telekomunikasi Terapan, 3(2). https://doi.org/10.25124/jett.v3i2.302

Putri, S. W., Marausna, G., & Prasetiyo, E. E. (2022). Analisis pengaruh intensitas cahaya matahari terhadap daya keluaran pada panel surya. Teknika STTKD: Jurnal Teknik, Elektronik, Engine, 8(1). https://doi.org/10.56521/teknika.v8i1.442

Rinaldi, K. T. (2022, Oktober). Design of solar cell and PLN using automatic transfer switch (ATS) for minimarket loads in Sorek Satu area. International Journal of Electrical, Energy and Power System Engineering (IJEEPSE), 5(3), 86–92. https://doi.org/10.31258/ijeepse.5.3.86-92

Sadi, S., & Mulyati, S. (2019). ATS (automatic transfer switch) berbasis programmable logic controller CPM1A. Jurnal Teknik: Universitas Muhammadiyah Tangerang, 8(1), 84–89. https://doi.org/10.31000/jt.v8i1.1579

Testbook Electrical Solutions. (2025, Mei 11). Solar cell diagram (photovoltaic cell): Working principle, arrays & V-I characteristics. Testbook.com. https://testbook.com/electrical-engineering/solar-cell-diagram-and-working

Suprianto. (2015). TDR (time delay relay). Blog UNNES. https://blog.unnes.ac.id/antosupri/tdr-time-delay-relay/

Susanto, E. (2013). Automatic transfer switch. Jurnal Teknik Elektro, 5(1).

Tafrikhatin, A., Sumarah, J., Wulandari, A. T., Pambudi, U., & Allam, I. G. (2022). Simple automatic transfer switch system using timer delay relay. Jurnal E-Komtek, 6(2). https://doi.org/10.37339/e-komtek.v6i2.1076

Usman, M. K. (2020). Analisis intensitas cahaya terhadap energi listrik yang dihasilkan panel surya. Jurnal POLEKTRO: Jurnal Power Elektronik, 9(2). https://doi.org/10.30591/polektro.v9i2.2047

Downloads

Published

2025-09-25

How to Cite

Mohammad Wahyudin, Edy Sumarno, Sunardi Sunardi, & Kartika Sekarsari. (2025). Sistem Automatic Transfer Switch (ATS) Terintegrasi PLN-Panel Surya Berbasis Time Delay Relay (TDR) untuk Beban Ruang Praktik Siswa . JURAL RISET RUMPUN ILMU TEKNIK, 4(3), 514–527. https://doi.org/10.55606/jurritek.v4i3.6804

Issue

Vol. 4 No. 3 (2025): Desember : Jurnal Riset Rumpun Ilmu Teknik

Section

Articles

License

Copyright (c) 2025 JURAL RISET RUMPUN ILMU TEKNIK

Creative Commons License

This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.

Similar Articles

1 2 3 > >> 

You may also start an advanced similarity search for this article.