Rancang Bangun Monitoring Kontrol Kecepatan Putar Motor Induksi 3 Fasa Berbasis IoT

Authors

  • Wisnu Bachtiar Fanani Politeknik Pelayaran Surabaya
  • Antonius Edy Kristiyono Politeknik Pelayaran Surabaya
  • Hadi Setiawan Politeknik Pelayaran Surabaya

DOI:

https://doi.org/10.58192/ocean.v4i1.3175

Keywords:

3 Phase Induction Motor, Hall Effect, Monitoring, Rotational Speed

Abstract

Along with the development of the industrial sector, companies are competing to create quality and affordable products. To support production, automation tools have emerged that help the production process so that it is faster. One of the machines that is widely used by large factories is a 3-phase induction motor. 3-phase induction motors are often used in driving equipment in industry because they have a simple construction, are relatively cheap, lightweight, have high efficiency, and are easy to maintain. This study utilizes the A3114 hall effect sensor device, PZEM-PP4T Sensor, 20x4 LCD, ESP32 module, Relay, Mitsubishi D700, MCP 4725 Sensor. The tests carried out showed that the performance of the sensor for measuring speed, voltage, and current on 3-phase motors has a high level of accuracy. Testing of motor speed shows a difference in speed value (Rpm) between the hall effect sensor and the tachometer, with an average accuracy percentage of 4,12%, indicating that the hall effect sensor has a fairly good level of accuracy. For voltage measurement, the Pzem sensor compared to the Multitester produces an average accuracy percentage of 0,90%, indicating that the pzem sensor is very reliable. Meanwhile, current testing shows a difference in value between the pzem sensor and the multitester with an average accuracy percentage of 0,98%, indicating a fairly high level of accuracy. Overall, this system can be relied on for measuring operational parameters of 3-phase motors because it has consistent and good accuracy. With this research, the 3-phase induction motor monitoring system which was originally done manually has changed to automatic and has a fairly high level of work efficiency.

References

Adani, F., & Salsabil, S. (2019). Internet of Things: Sejarah teknologi dan penerapannya. Isu Teknologi STT Mandala, 14(2).

Darmawan, C. W., Sompie, S. R. U. A., & Kambey, F. D. (2020). Implementasi Internet of Things pada monitoring kecepatan kendaraan bermotor. Jurnal Teknik Elektro dan Komputer, 9(2).

Evalina, N., H, A. A., & Zulfikar. (2018). Pengaturan kecepatan putaran motor induksi 3 fasa menggunakan programmable logic controller. Journal of Electrical Technology, 3(2).

Luthfi, M. A., Rasyad, S., & Pratama, D. A. (2022). Pengaturan kecepatan motor tiga fasa dengan arah putar reverse menggunakan variabel speed drive (VSD). Indonesian Journal of Electrical Engineering and Renewable Energy, 2(2).

Mahardi, R. D., Nuri, & 'Atiq, M. (2021). Panel kontrol kecepatan motor 3 fase dengan menggunakan VFD D700. Jurnal Edukasi Elektromatika (JEE), 2(2).

Pambuka, R. N., & Rahardjo, D. T. (2018). Pembuatan alat eksperimen induksi magnet pada toroida menggunakan Arduino dan Hall effect sensor. Jurnal Materi dan Pembelajaran Fisika (JMPF), 2(8).

Putra, D. K., Faizah, F., & Musadek, A. (2022). Rancang bangun sistem proteksi dan kontrol kecepatan motor 3 phase berbasis Internet of Things (IoT). Seminar Nasional Inovasi Teknologi Penerbangan (SNITP).

R, D. A. (2019). Pemanfaatan panel surya sebagai perangkat konversi energi untuk pengecas gawai di tempat umum. Semdi Unaya.

Sarmidi, & Bhui, B. (2018). Rancang bangun sistem informasi pengolah bank sampah Puspasari Kecamatan Purbaratu Kota Tasikmalaya. Jurnal Manajemen dan Teknik Informatika, 2(1), 181–190.

Sulistyorini, T., Sofi, N., & Sova, E. (2022). Pemanfaatan NodeMCU ESP8266 berbasis Android (Blynk) sebagai alat mematikan dan menghidupkan lampu. Jurnal JUIT, 3(1), 40–53.

Susanto, F., Prasiani, N. K., & Darmawan, P. (2022). Implementasi Internet of Things dalam kehidupan sehari-hari. Jurnal Imagine, 2(1).

Uddin, S., et al. (2023). Monitoring and control of a variable frequency drive using PLC and SCADA. Jurnal 7 Samudra Politeknik Pelayaran Banten, 8(2), 87–92.

Wilutomo, R. M. M., & Yuwono, T. (2017). Rancang bangun memonitor arus dan tegangan serta kecepatan motor induksi 3 fasa menggunakan web berbasis Arduino Duo. Gema Teknologi, 19(3).

Yulianto, R., & Surya, A. (2021). Penerapan sistem kontrol kecepatan motor induksi 3 fasa berbasis microcontroller. Jurnal Teknik Elektro Indonesia, 10(2), 55–64.

Zulfikar, M., & Putra, A. K. (2022). Implementasi sensor arus berbasis IoT pada monitoring beban motor listrik. Jurnal Rekayasa Elektronika dan Teknologi Informasi, 4(1), 22–31.

Downloads

Published

2025-03-21

How to Cite

Wisnu Bachtiar Fanani, Antonius Edy Kristiyono, & Hadi Setiawan. (2025). Rancang Bangun Monitoring Kontrol Kecepatan Putar Motor Induksi 3 Fasa Berbasis IoT. Ocean Engineering : Jurnal Ilmu Teknik Dan Teknologi Maritim, 4(1), 28–46. https://doi.org/10.58192/ocean.v4i1.3175

Issue

Vol. 4 No. 1 (2025): Ocean Engineering : Jurnal Ilmu Teknik dan Teknologi Maritim

Section

Articles

License

Copyright (c) 2025 Ocean Engineering : Jurnal Ilmu Teknik dan Teknologi Maritim

Creative Commons License

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