Preprint has been submitted for publication in journal
Preprint / Version 1

Electrical Monitoring System Motorcycles Based on NodeMCU (Esp32)


Sistem Monitoring Kelistrikan pada Sepeda Motor Berbasis NodeMCU (Esp32)

##article.authors##

DOI:

https://doi.org/10.21070/ups.6862

Keywords:

NodeMCU ESP32, Monitoring, Electrical, Motorcycles

Abstract

 

The NodeMCU ESP32-based Electrical Monitoring System for Motorcycles monitors key electrical components, including the battery, headlight, horn, and starter, and sends notifications to the rider's smartphone via Telegram when damage is detected. This system simplifies the traditionally manual inspection process, which involves dismantling the motorbike and using tools like an avometer. By utilizing a DC Voltage sensor and NodeMCU ESP32, it accurately displays voltage readings, showing 0 for damaged components and correct values for functional ones. The system operates efficiently with a fast average data transmission delay of 1.14 seconds, though slight variations (0.4%) may occur depending on smartphone signal strength. Overall, the system provides practical, accurate, and reliable electrical monitoring for motorcycles.

Downloads

Download data is not yet available.

References

A. Massara and A. Wicaksono, “Peran Sepeda Motor Bagi Masyarakat Berpendapatan Rendah Di Kota Makassar,” J. Transp., vol. 18, no. 3, pp. 161–168, 2018, [Online]. Available: https://journal.unpar.ac.id/index.php/journaltransportasi/article/view/3152.

A. B. P. Manullang, Y. Saragih, and R. Hidayat, “Implementasi NodeMCU ESP8266 dalam Rancang Bangun Sistem Keamanan Sepeda Motor Berbasis IoT,” J. Inform. Rekayasa Elektron., vol. 4, no. 2, pp. 163–170, 2021, [Online]. Available: http://e-journal.stmiklombok.ac.id/index.php/jireISSN.2620-6900.

S. Wahyuni, “Pengaruh Harga, Citra Merek, dan Sikap Konsumen Terhadap Keputusan Pembelian Sepeda Motor Honda Beat eSP CW Pada Bunda Motor Payakumbuh,” p. 17, 2017.

C. A. Apriana, T. Dermawan, B. Suhendro, and J. T. Nuklir, “Desain Sistem Kelistrikan Sepeda Motor Sebagai Alat Bantu Ajar Mahasiswa,” J. Batan, no. September, pp. 240–247, 2015.

R. M. Yuliyanto, D. Darmansyah, R. Gunawan, and T. Trisnanda, “Sistem Pakar Mendeteksi Kerusakan Komponen Kelistrikan Sepeda Motor Matic Injeksi Menggunakan Fuzzy Sugeno,” Dirgamaya J. Manaj. dan Sist. Inf., vol. 1, no. 3, pp. 30–45, 2022, doi: 10.35969/dirgamaya.v1i3.202.

Rafii Lano, “Mengenal Lebih Dalam Mengenai Sistem Kelistrikan Sepeda Motor, Jangan Keliru,” Momotor.Id, 2023. https://momotor.id/news/sistem-kelistrikan-sepeda-motor/#:~:text=Sistem kelistrikan pada sepeda motor bertugas untuk mengoperasikan berbagai jenis,ketika kondisi cuaca yang buruk.

I. P. Gede Abdi Sudiatmika, R. Lana Rahardian, K. Adi Karismayana, and L. P. Meyra Anjani, “Rancang Bangun Monitoring Charging Accu Menggunakan Arduino Berbasis Android,” Naratif J. Nas. Riset, Apl. dan Tek. Inform., vol. 4, no. 1, pp. 63–74, 2022, doi: 10.53580/naratif.v4i1.153.

N. Mayhana, M. Muthmainnah, and S. Seliwati, “Sistem Informasi Berbasis Web Pembukaan Rekening Dan Deposito Pada Bank Pembiayaan Rakyat Syariah Almasoem,” J. Media Elektro, vol. XI, no. 2, pp. 76–86, 2022, doi: 10.35508/jme.v0i0.8045.

A. A. Maike, R. Fauzi, M. Subito, T. S. Sollu, and A. Alamsyah, “Rancang Bangun Alat Monitoring Output Modul Pltb (Pembangkit Listrik Tenaga Bayu (Angin), Berbasis Data Logger,” Foristek, vol. 12, no. 1, pp. 21–29, 2022, doi: 10.54757/fs.v12i1.141.

A. F. Ramadhan, D. Hadidjaja, and R. Saputra, “Conductivity Value Monitoring Tool to Know Water Quality Based IOT [ Alat Pembaca Nilai Konduktiviti Untuk Mengetahui Kualitas Air Berbasis Iot ],” pp. 1–6.

D. D. Krishartono, “Rancang Bangun Alat Pendeteksi Dan Monitoring Sistem Pengapian (Cdi-Ac) Pada Sepeda Motor,” Institure Teknol. Nas. Malang, 2017.

Posted

2025-01-09