UPS design using lithium-ion batteries, automatic smart charging, and monitoring with blynk application

  • Evi Suhaevi Faculty of Engineering, Universitas Bung Karno
  • Ayu Febrina Rizal Faculty of Engineering, Universitas Bung Karno
  • Azmi Rahadi Faculty of Engineering, Universitas Bung Karno
Keywords: Uninterruptible Power Supply (UPS), Lhitium-iom battery, Automatic charger, NodeMCU, Esp 8266, blynk

Abstract

This study aims to determine the results of UPS design using Lithium ION batteries, automatic smart charging, and monitoring with the Blynk application. This study uses an experimental research design to test and implement Uninterruptible Power Supply (UPS) that uses Lithium-Ion batteries and Automatic Smart Charging with monitoring through the Blynk application. An Uninterruptible Power Supply (UPS) is an electrical backup device in case of a sudden power outage. A modified Valve Regulated Lead Acid (VRLA) battery replaces it with an 18650 Lithium-ion battery, which is parallelized in series to produce the same 12V voltage. DC because this Lithium battery has a longer life than VRLA batteries. In this final project, the author uses the Blynk application to monitor batteries and automatic smart charging, making it easier and more practical. The results of this study state that the tool can operate optimally without hurting the electronic devices tested.

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References

Ashari, M. Arya. 2018. “Sistem Monitoring Dan Manajemen Baterai Pada Mobil Listrik”. ”. e-Proeeding of Engineering: Vol.5, No. 3 Desember (2018)
Faruq Muhammad, Yunitasari Indri. 2016. Makalah Inverter. Yogyakarta: Universitas Gajah Mada.
Frieyadie. 2006. Panduan Pemrogramman C++. Yogyakarta: Andi Offset.
Hamzah, Rifqi Amir, dkk. 2017. “Implementasi System Monitoring Dan Manajemen Baterai Kendaraan Listrik”. e-Proeeding of Engineering: Vol.4 No.2 Agustus (2017).
JE TECH. 2020. Tutorial Monitoring Sensor Via Blynk. www.youtube.com. Diakses pada 1 Desember 2021.
KemenkominfoTV. 2019. Internet of Things- Kominfopedia.. www.youtube.com. Diakses pada 20 Nomvember 2021.
Kusuma,Ade Bagus. 2021. Jenis Baterai Lhitium. www.youtube.com. Diakses 3 Oktober 2021.
Mardiyanto Ari. 2015. Emergensi Energi Listrik Pada Kamar Operasi Di Rumah Sakit Mengunakan Uninterruptible Power Supplies (UPS). Semarang: Jurusan Teknik Elektro Universitas Negeri Semarang.
Nathalia. 2018. Bateri Lithium Ion: Komponen – Kelebihan Dan Kekurangan. daftarhargahp.co.id/baterai-lithium-ion/. Diakses 20 Oktober 2021.
Pelatihan Engineering PT Minokarya Sejati MEP,HVAC. 2021. Sistem Kerja UPS. www.youtube.com. Diakses 1 November 2021
Pratama, Anugrah. 2014. Jenis Tipe Dan Perbedaan UPS. blog.anugrahpratama.com/jrnis-tipe-dan-perbedaan-ups/. Diakses Pada 2 November 2021.
Simpson, Chloe., 2014. Few Facts About Uninterruptible Power Supply. www.interestingreality.com /few-facts-about-uninterruptible-power-supply/. Diakses pada tanggal 11 November 2021.
Soehartono, Luthfitaris Haidiazi. Dkk. 2020. “Perancangan Sistem Manajemen
Baterai Pada Mobil Listrik: Studi Kasus Baterai Kapasitas 46Ah 12V Pada Neo Blits 2”. Maestro: Vol.3 No.1 April (2020).
Yudhanto Yudho, 2019. Pengantar Teknologi Internet of Things. Surakarta: UNS Press.
Various Experience Of Zam. 2019. Jenis UPS dan Cara Kerjanya. www.youtube.com diakses 5 November 2021.
Published
2024-01-27
How to Cite
Suhaevi, E., Rizal, A. F., & Rahadi, A. (2024). UPS design using lithium-ion batteries, automatic smart charging, and monitoring with blynk application. Jurnal Scientia, 13(01), 465-480. https://doi.org/10.58471/scientia.v13i01.2222