SISTEM PENGATURAN BEBAN GENERATOR TIGA FASA SECARA OTOMATIS BERBASIS INTERNALLY TRIGGERED TRIAC

Muhammad Deval Efendi, Abdul Muis Prasetia, Linda Sartika

Abstract


A generator is an electrical machine that converts mechanical/motion energi into electrical energi. The performance of the generator is strongly influenced by the load, so when the load exceeds the generator limit, it is called overload disturbance. In this study, the author makes a generator load regulation sistem based on Internally Triggered TRIAC which functions to reduce the voltage value to the load automatically so that the current value can always be at the set point, which is 0.50 A. In this study, a resistive load in the form of an incandescent lamp with specifications of 100 W is used. As many as two and one 5 W incandescent lamp. For one 100 W incandescent lamp, the current value is 0.40 A and for one 5 W incandescent lamp, the current value is 0.06 A. When all loads are on, the current value ready by the sensor is 0.86 A so that the sistem responds to a load. More because the current value exceeds the set point. The sistem lowers the voltage value to 17.67 V so that the current value can always be at the set point of 0.50 A.


Keywords


Electrical Energi; Generator; Overload; Current Sensor; Internally Triggered Triac

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References


Alfaq, M. M., Sadana, M. F. I., Amiruddin, M., and Carsoni. (2020). Sistem KendaliI Frekuensi Generator Metode On – Off. Prosiding Seminar Nasional NCIET, 1, 111–117.

Andriansah, A. K., & Haryudo, S. I. (2020). Sistem Pengaturan Beban Generator Satu Fasa Secara Otomatis Berbasis Arduino Uno. Jurnal Teknik Elektro, 09(02), 339–346.

Daud, A. (2019). Rancang Bangun Modul Proteksi Arus Beban Lebih Dan Hubung Singkat. Jurnal Teknik Energi, 9(1), 37–44.

Dewi, K., Rapi, S., Naim, M., & Sari, E. U. (2016). Implementasi Zero Crosing Pada Kontrol Unit untuk pengaturan Iluminasi Lampu Pijar dan Kipas Angin Berbasis Nuvoton. Prosiding Seminar Teknik Elektro & Informaika, 320–326.

Guntoro, H., Somantri, Y., & Haritman, E. (2013). Rancang Bangun Magnetic Door Lock Menggunakan Keypad dan Solenoid Berbasis Mikrokontroler Arduino Uno. Electrans, 12(1), 39–48.

Herlan, & Prabowo, B. A. (2009). Rangkaian Dimmer Pengatur Iluminasi Lampu Pijar Berbasis Internally Triggered TRIAC. INKOM Journal of Informatics, Control Systems, and Computers, 3(1), 14–21.

Ningsih, M. Y., & Adam. (2018). Rancang Bangun Sistem Proteksi Beban Lebih pada Perangkat Elektronik Berbasis Arduino. Seminar Nasional Industri dan Teknologi (SNIT), 55–60.

Tandioga, R., Marhatang, Payung, T. T. R., & Khatimah, H. (2014). Analisis Pengaturan Tegangan Generator Sinkron Tiga Fasa Hubungan Bintang Akibat Pembebanan Tidak Seimbang. SINERGI, 2, 170–180.

Yani, A. (2018). Pengaruh Perubahan Beban Resistif Terhadap Sistem Tenaga Listrik. Journal of Electrical Technology, 3(1), 18–21.

Yusniati, & Matondang, N. N. S. (2020). Analisis Sistem Pembebanan Pada Generator Diesel Titi Kuning. SEMNASTEK UISU, 59–64.




DOI: https://doi.org/10.35334/jeb.v8i2.2971

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