RANCANG BANGUN SISTEM MANAJEMEN DAN PROTEKSI PADA BATERAI 48 V 12 AH
Keywords:
Protection, Monitoring, Battery, Internet Of ThingsAbstract
Batteries, particularly lithium-ion, are a key component in energy storage due to their high energy density, long lifespan, and fast rechargability. fast recharge capability. In addition to their efficiency, we must pay attention to factors factors that can affect the life and service life of the battery. For this reason, the author will create a battery management and protection system in order to extend the life of the battery itself. the service life itself. In order to support this tool, a monitoring monitoring system that will be made based on IOT. Protection that will be made is over voltage protection, low voltage protection, over current protection, and over charge protection. also over charge protection. Protection will be made by looking at the parameters displayed by ESP32. ESP32 will use PZEM-017 sensor and shunt resistor as voltage and current sensors. as voltage and current sensors. In this case, the battery in question will have a voltage of 48 Volts and is intended for electric bicycle batteries.
References
Arfianto, D. F., & Asfani, D. A. (2016). Pemantauan, Protection, dan Ekualisasi Baterai Lithium-Ion Tersusun Seri Menggunakan Konverter Buck-Boost dan LC Seri dengan Kontrol Synchronous Phase SHift. Jurnal Teknik ITS, 5(2), B122-B127. Shaw, J. 2003. Epidemiology and prevention of type 3 diabetes and metabolic syndrome. Medical Journal of Australia, 379-383.
Wijaya, N. M., Kumara, I. N., & Divayana, Y. (2021). Perkembangan Baterai Dan Charger Untuk Mendukung pemasyarakatan sepeda listrik di Indonesia. Jurnal SPEKTRUM, 8(1),15.
Makuvara, T. M., Gill, A., Gupta, S., & Chauhan, S. (2023). Protection circuits for Optimal Battery Management of Battery Electric Vehicle Scooters. 2023 3rd Asian Conference on Innovation in Technology (ASIANCON).
Nainggolan, B., Inaswara, F., Pratiwi, G., & Ramadhan, H. (2017a). Rancang Bangun sepeda Listrik Menggunakan panel Surya Sebagai pengisi baterai. Jurnal Poli-Teknologi, 15(3).
Diantari, R.A., Erlina, Widyastuti, C. (2018). STUDI PENYIMPANAN ENERGI PADA BATERAI PLTS: Tim Redaksi Jurnal. ENERGI & KELISTRIKAN, 9(2), 120–125.
Soehartono, L. H., Musafa, A., & Sujono, S. (2020). PERANCANGAN SISTEM MANAJEMEN BATERAI PADA MOBIL LISTRIK STUDI KASUS: BATERAI KAPASITAS 46Ah 12V PADA NEO BLITS 2. MAESTRO, 3(1), 86-97.
Farizy, A. F., & Asfani, D. A. (2016). Desain Sistem Monitoring State Of Charge Baterai Pada Charging Station Mobil Listrik Berbasis Fuzzy Logic Dengan Mempertimbangkan Temperature. Jurnal Teknik ITS, 5(2), B278-B282.
Fernandus, R. (2020). Perancangan Sistem Penggerak Pada Mobil Listrik Alogo Dengan Kapasitas Daya 3000 Watt/72 Volt.
Puteri, C. A. (2019). Penggunaan Grafit dari Daur Ulang Baterai Ion Lithium dengan Perlakuan Panas sebagai Material Anoda Baru (Doctoral dissertation, Institut Teknologi Sepuluh Nopember).
