Rancang Bangun Sistem Controlling Rpm Pada Main Engine Berbasis Arduino Uno Guna Mencegah Terjadinya Overspeed

Reski Kurniawan; Agus Dwi Santoso; Agus Dwi Santoso; Upik Widyaningsih

doi:10.59581/jkts-widyakarya.v2i3.3243

Authors

Reski Kurniawan Politeknik Pelayaran Surabaya
Agus Dwi Santoso Politeknik Pelayaran Surabaya
Agus Dwi Santoso Politeknik Pelayaran Surabaya
Upik Widyaningsih Politeknik Pelayaran Surabaya

DOI:

https://doi.org/10.59581/jkts-widyakarya.v2i3.3243

Keywords:

RPM, overspeed, IR sensor, Arduino Uno

Abstract

As an important means of sea transportation for the distribution of goods and human mobility between islands, ships require a reliable prime mover to avoid wear or damage, especially when overspeeding occurs which can result in fire. Therefore, a prototype was created that uses an IR Obstacle sensor to monitor the RPM speed of the rotating engine. By using Arduino Uno as a processor, this prototype is able to display the RPM value on the LCD and provide a signal in the form of a green light if the speed is below 4000 Rpm, as well as a red light and buzzer sound if overspeed occurs above 4000 Rpm, followed by the engine turning off after 15 seconds. Testing shows that this prototype has a high level of accuracy, with a difference between 0.08% to 2.73% and an average difference of 1.003%.

References

Agus, E. (2015). *Pengendalian overspeed pada mesin diesel*. Semarang: Polines.

Borg, W. R., & Gall, M. D. (1983). *Educational research: An introduction* (4th ed.). New York: Longman.

Daryanto. (2004). *Motor diesel*. Jakarta: PT. Yrama Widya.

Handoko. (2017, November). Sistem kendali perangkat elektronika monolitik berbasis Arduino Uno R3. *Proceedings*, 1–2.

Hidayat, R., & Sapudin, B. S. (2018). Perancangan sistem keamanan rumah berbasis IoT dengan NodeMcu Esp8266 menggunakan sensor PIR HC-SR501 dan sensor smoke detector. *Journal of Innovation and Applied Technology*, 7(2), 139–148.

Iskandariyanto, A., Brian, R., & Amrinsyah, R. (2020). Rancang bangun sistem monitoring tegangan, arus, dan frekuensi keluaran. *Jurnal AMORI*, 1, 3–8.

Marta, M., Miftah, & Mintarso, C. J. (2010). Sistem monitoring putaran generator pada pembangkit listrik tenaga arus laut. *Wave: Jurnal Ilmiah Teknologi Maritim*, 3(1), 19–23.

Pangestu, A. D., et al. (2019). Sistem monitoring beban listrik berbasis Arduino Nodemcu Esp8266. *Journal of Electrical and Electronics Engineering*, 4(1), 187–197.

Pramana, T., & Nababan, R. (2019). Perancangan perangkat penghitung jumlah penumpang pada kapal komersial menggunakan mikrokontroller. *Jurnal Sustainable Research and Industrial Application*, 8(1), 18–29.

Saputro, B. (2021). *Best practices penelitian pengembangan (research & development) bidang manajemen pendidikan IPA*. Academia Publication.

Widodo, E. D., Wardihani, S., Pramono, S., & Yulianto, T. (2018, April). Rancang bangun lampu duduk menggunakan LED dengan tiga level pencahayaan untuk mendukung industri kreatif kewirausahaan. *Proceedings*.