PENGENDALI MOTOR DC INDUSTRI BERBASIS PSIM DAN PENYEARAH SATU FASA

Authors

  • Endang Pudji Purwanti PPNS
  • Anggara Trisna Nugraha PPNS
  • Rama Arya Sobhita PPNS
  • Dita Dini Rivanda PPNS

Keywords:

Speed controller, three-phase DC motor, fully controlled rektifier, PSIM, work safety, energy efficiency

Abstract

The development of three-phase DC motor technology has opened up various solutions for motor speed control in industrial applications. The use of autotransformers is often considered inefficient and impractical, especially when expensive and difficult-to-replace components fail. Furthermore, suboptimal armature voltage regulation can increase operational safety risks. This study proposes a more efficient, economical, and safe three-phase DC motor speed control system, using PSIM software and a thyristor-based fully controlled rectifier. This system is simulated with the aim of reducing the potential for operational failures that endanger worker safety, while simultaneously improving energy efficiency. Through PSIM simulation, motor speed regulation can be carried out more precisely, thereby reducing the risk of operational errors. The simulation results show that the greater the ignition angle, the motor speed also increases. For example, at T = 0 Nm and an ignition angle of 0°, a DC voltage of 184.64 volts is generated with a motor speed of 2927.94 RPM. This system provides a more reliable and energy-efficient motor control solution for industrial environments that require accurate and safe speed regulation.

References

DAFTAR PUSTAKA

M. Ali, T. Khan, dan M. Ahmed, "Application of controlled rectifiers in DC motor speed control," IEEE Transactions on Industrial Applications, vol. 56, no. 3, pp. 1341–1349, 2020.

A. T. Nugraha, H. A. Widodo, D. S. A. Pambudi, L. Cahyono, M. Apriani, A. P. Utomo, D. Priyambodo, M. D. H. Putra, dan R. Febrianto, “PORTABLE – 2WG” INOVASI TURBIN PEMBANGKIT LISTRIK PORTABLE AIR DAN ANGIN UNTUK KEBUTUHAN RUMAH TANGGA PADA PENDUDUK DAERAH ALIRAN SUNGAI, Deepublish, 2022.

E. Soeprijanto, E. Haryanto, dan R. Handayani, "Optimization of DC motor control for improving industrial machine safety," Journal of Electrical Engineering and Technology, vol. 13, no. 5, pp. 2387–2396, 2021.

J. Lee, S. Kim, dan H. Park, "Thyristor-based rectifiers in the speed regulation of industrial DC motors," Journal of Electrical Power Systems, vol. 18, no. 3, pp. 229–238, 2017.

Y. Chien, J. Chen, dan L. Lin, "Improving safety and efficiency in industrial motor control systems," Journal of Safety Engineering, vol. 29, no. 2, pp. 45–52, 2015.

T. A. Nugraha, Konsep Dasar Elektronika Daya, Deepublish, 2022.

S. Hadi, S. Darmadi, dan A. Wibowo, "Design of a fully controlled rectifier system for industrial applications," International Journal of Engineering Research, vol. 12, no. 4, pp. 67–75, 2019.

A. Chaudhry dan R. Kumar, "Application of PSIM software in the simulation of motor control systems," International Journal of Power Electronics, vol. 5, no. 4, pp. 300–307, 2019.

Hangzhou New Hengli Electric Machine MFG. Co., Ltd., "Motor Manufacturer, Electric Motor, DC Motor Supplier," Made-in-China.com. [Online]. Available: https://cnhldj.en.made-in-china.com/. [Accessed: Aug. 19, 2025].

D. Almunawar, et al., "Perancangan Sistem Pendukung Keputusan Mesin e-Fill Berbasis ANFIS," COMPLETE-Journal of Computer, Electronic, and Telecommunication, vol. 5, no. 1, 2024.

R. Kumar, S. Singh, dan N. Gupta, "Improved methods for rectifier based motor control," Energy Conversion and Management, vol. 112, pp. 129–137, 2016.

F. Yahya Saputra, et al., "Efficiency Of Generator Set On Changes In Electrical Load On Fishery Vessels," MEIN: Journal of Mechanical, Electrical & Industrial Technology, vol. 1, no. 2, pp. 1–4, 2024.

W. Zhang, Y. Liu, dan L. Zhang, "Advanced methods in motor speed regulation for industrial safety," Journal of Control Engineering, vol. 26, no. 6, pp. 1001–1013, 2018.

A. Khan, M. Sharif, dan S. Ahmad, "Energy-efficient motor control systems in industrial applications," Energy Efficiency, vol. 11, no. 1, pp. 15–23, 2018.

A. Rahman, et al., "Application of Ant Colony Optimization Algorithm in Determining PID Parameters in AC Motor Control," Brilliance: Research of Artificial Intelligence, vol. 4, no. 2, pp. 538–549, 2024.

N. D. Pangestu, et al., "PERANCANGAN SMART PROTECTION PADA MOTOR KINCIR AERATOR TAMBAK UDANG MENGGUNAKAN LOGIKA FUZZY," Jurnal 7 Samudra, vol. 9, no. 1, pp. 1–8, 2024.

M. Amrullah, et al., "RANCANG BANGUN MONITORING KUALITAS AIR TAMBAK UDANG VANAME DENGAN KONTROL PADDLE WHEEL BERBASIS MIKROKONTROLLER," Jurnal 7 Samudra, vol. 8, no. 2, pp. 117–122, 2023.

M. Mu'in, et al., "ANALISIS ALIRAN DAYA DAN CAPASITOR PLACEMENT PADA SISTEM KELISTRIKAN PT BLAMBANGAN BAHARI SHIPYARD DENGAN SOFTWARE ETAP," Jurnal 7 Samudra, vol. 8, no. 1, 2023.

A. Brown, V. Patel, dan R. Edwards, "The role of safety measures in industrial motor control systems," Safety Science, vol. 132, pp. 44–52, 2020.

A. Fauzi, et al., "Performance of Permanent Magnet Synchronous Generator (pmsg) 3 Phase Radial Flux Results Modification of Induction Motor," MEIN: Journal of Mechanical, Electrical & Industrial Technology, vol. 1, no. 2, pp. 5–11, 2024.

E. Hidayana, et al., "UTILIZATION OF BAGASSE WASTE FOR BIO-OIL EXTRACTION FROM SUGARCANE JUICE VENDORS IN BANYUWANGI REGENCY," Jurnal Cakrawala Maritim, vol. 7, no. 1, pp. 43–51, 2024.

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Published

2025-11-27

How to Cite

Endang Pudji Purwanti, Anggara Trisna Nugraha, Rama Arya Sobhita, & Dita Dini Rivanda. (2025). PENGENDALI MOTOR DC INDUSTRI BERBASIS PSIM DAN PENYEARAH SATU FASA . Prosiding Seminar Nasional Terapan Riset Inovatif (SENTRINOV), 11(1), 105 - 113. Retrieved from https://proceeding.isas.or.id/index.php/sentrinov/article/view/1689

Issue

Vol. 11 No. 1 (2025): Engineering and Science

Section

Articles