Design of Arduino-Based Automatic Motor Wire Rewinding System
DOI:
https://doi.org/10.29103/jreece.v5i1.19136Keywords:
Arduino, Stepper Motor, Electric Motor, Roll MotorAbstract
In the industrial world, the motor winding process is one of the important stages in the manufacture and rewinding of electric motors. Many electric motors are damaged and even the motor can burn because in the operation of electric motors often serve loads that exceed the limits of the motor's ability (overload), contaminated with foreign objects, age, bearing problems, which can cause the effect of changing the current, causing heat which if left for a long time can cause burning of the motor wire winding. With the damage to the motor wire winding, a cost-effective solution that can be done is to rewind the motor wire. the motor rewinding process is carried out so that the winding can return to normal and work properly. The research was conducted using the experimental method. In the research, an automatic rolling device using an Arduino microcontroller was designed. The test results that the system can function normally in the process of inputting the value of the number of rolls, rolling driven by stepper motors and LCD has functioned properly in displaying each data on the system designed.
References
Anshori, M., Sari, N., & Vijai Nasrulloh, A. (2022). Rancang Bangun Alat Ukur Kekeruhan Air Layak Pakai Berbasis Arduino Uno R3 Pada Sungai Martapura. Jurnal Ilmiah Fisika FMIPA Universitas Lambung Mangkurat, 19(3), 2541-1713. https://doi.org/10.20527/flux19i3.12959
Devita, R., Wirawan, N. T., & Syafni, D. A. (2022). Perancangan Prototipe Keamanan Pintu Rumah Menggunakan Kamera Ttl Dan Aplikasi Telegram Berbasis Arduino. JUISIK, 2(2). http://journal.sinov.id/index.php/juisik/indexHalamanUTAMAJurnal:https://journal.sinov.id/index.php
DF. Robot. (2022). Panduan Pengguna Driver Motor Stepper TB6600. www.DFRobot.com
Dwi Putra, W., Ishak, & Halim, J. (2021). Implementasi Teknik Counter Pada Penggulung Tembaga Berbasis Mikrokontroller. Jurnal CyberTech, 4(8). https://ojs.trigunadharma.ac.id/
Eka Maulana, F., & Nurpulaela, L. (2024). Konfigurasi Mikrokontroler STM32 Untuk Membaca Push Button Dengan Arduino IDE Pada Prototipe Smart Charger Di PT. Pasifik Satelit Nusantara. In Jurnal Mahasiswa Teknik Informatika (Vol. 8, Issue 4).
Fatahillah Murad, R., Almasir, G., & Ronald Harahap, C. (2022). Pendeteksi Gas Amonia Untuk Pembesaran Anak Ayam Pada Box Kandang Menggunakan MQ-135. Jurnal Ilmiah Mahasiswa Kendali Dan Listrik, 3(1). https://doi.org/10.33365/jimel.v1i1
Hapsari, F. K., Bhakti, G. F., & Dewantoro, D. M. (2020). Pemilihan Mekanisme Unit Penggulungan Coil Pada Perancangan Winding Coil Machine.
Kurniawan, S. A., & Taufik, M. (2021). Rancang Bangun Solar Tracker Sumbu Tunggal Berbasis Motor Stepper Dan Real Time Clock. Jurnal Ilmiah Teknologi Dan Rekayasa, 26(1), 1-12. https://doi.org/10.35760/tr.2021.v26i1.3685
M. Shandika Drajat. (2019). Sistem Kontrol Kabel Suspensi Untuk Pergerakan Objek Pada Ruang 3 Dimensi.
Muhammad Faizal Kurniawan. (2023). Implementasi Mikrokontroler Sebagai Pengendali Penggulungan Kawat Motor Industri.
Puspasari, F., Satya, T. P., Oktiawati, U. Y., Fahrurrozi, I., & Prisyanti, H. (2020). Analisis Akurasi Sistem Sensor DHT22 berbasis Arduino terhadap Thermohygrometer Standar. Jurnal Fisika Dan Aplikasinya, 16(1), 33. https://doi.org/10.12962/j24604682.v16i1.5717
Rahardjo, P. (2021). Sistem Penyiraman Otomatis Menggunakan RTC (Real Time Clock) Berbasis Mikrokontroler Arduino Mega 2560 Pada Tanaman Mangga Harum Manis Buleleng Bali. In Maret (Vol. 8, Issue 1). www.labelektronika.com
Sindak Hutauruk, I., LourenzaÃ, S., & Jogi. (2021). Miniatur Sistem Pemindahan Barang Pada Konveyor Dengan Penggerak Motor Stepper. In Telecommunications & Control System-ELPOTECS Jurnal ELPOTECS | (Vol. 4, Issue 2).
Soedjarwanto, N., Forda Nama, G., & Astu Nugroho, R. (2021). Prototipe Smart door lock Menggunakan Motor Stepper Berbasis IoT (Internet of Things).
Syahwil, M. (2020). Modifikasi Alat Penggulung Dinamo Sistem Manual Menjadi Otomatis Berbasis Arduino. In JOURNAL OF LABORATORY ISSN (Vol. 3, Issue 1). Online.
J. Napitupulu, & L. Siahaan. (2020). Studi Flicker Pada Start Motor Asinkron. In Jurnal Teknik Elektro (Vol. 9, Issue 1).
Utama Putra, I., Bakri, M., & Darwis, D. (2021). Pengukur Tinggi Badan Digital Ultrasonik Berbasis Arduino Dengan Lcd Dan Output Suara. Jurnal Teknik Dan Sistem Komputer (JTIKOM), 2(2).
Widiastuti, S. (2023). Analisa Efisiensi Biaya di Rumah Susun pada Pemakaian Lampu LED. Elektriese: Jurnal Sains Dan Teknologi Elektro, 13(01), 95-106. https://doi.org/10.47709/elektriese.v13i01.3059
Widiatmoko, D., Made Tulus Adi, I., & Suryadi, K. (2022). Pengisi Munisi Pada Magazen Senjata Ss2-V4 Berbasis Arduino Mega 2560 Guna Mendukung Latihan Menembak. In Jurnal Elkasista (Vol. 3).
Wisnu Adi Perdana. (2019). Alat Pemantau Kondisi Seorang Gamer.
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