Design of Battery Charging System with CC-CV Method Using Interleaved Buck-Boost Converter
Abstract
The transition of renewable energy has become an interesting issue and a worldwide concern that is frequently discussed. Solar panels are regarded to have the most potential in tropical areas like Indonesia. However, weather and sunlight intensity have a substantial impact on the amounts of electricity generated by solar panels. Therefore, a battery which functions as a backup supply is required. Lead acid batteries are used in numerous applications. The performance of lead-acid battery is commonly influenced by temperature and charging time, which makes it vulnerable to overcharging. Multistage charge methods, namely Constant Current-Constant Voltage (CC-CV), are used to extend battery life, reduce charging time, and avoid the risk of overcharging. Fuzzy Logic Controller (FLC) is used to adjust charging current and voltage on the battery based on the setpoint. Based on the CC-CV charging system simulation results, a constant current value can be obtained when the CC condition is 4.5 A, and a transition to the CV condition occurs when the voltage value on the battery reaches 14.4 V. When the battery reaches its maximum capacity, the current is reduced to 3% of the battery’s capacity. The rate of fully charged current triggers the relay to turn on, to ensure that the charging process has been completed.
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A. I. Ramadhani, “Desain dan Implementasi Battery Charger Valve Regulated Lead Acid dengan Monitoring State of Charge Menggunakan Metode Coulomb Counting Pada Lampu Taman”. Power Elektronik: Jurnal Orang Elektro, Vol. 11, No. 1, 2022. https://doi.org/10.30591/polektro.v11i1.3226
V. P. Lestari, “Permasalahan dan Tantangan Program Peningkatan Kontribusi Energi Baru dan Terbarukan dalam Bauran Energi Nasional”. Badan Keahlian Dewan DPR RI: Pusat Kajian Akuntabilitas Keuangan Negara.
S. J. Dewan Energi Nasional, Outlook Energi Indonesia 2019. (Jakarta: Sekretariat Jenderal Dewan Energi Nasional).
S. Soedibyo, R. Delfianti, F. A. Pamuji, M. Ashari, “Kontrol Tegangan pada Sistem Hybrid Panel Surya-Turbin Angin Menggunakan Manajemen Penyimpanan Baterai”. Jurnal Rekayasa Elektrika, Vol 16, No. 3, 2020. https://doi.org/10.17529/jre.v16i3.16010
M. Mufty, W. Dany, D. O. Anggriawan, M. Z. Efendi, “Baterai Charger VRLA dengan Metode Constant Current Constant Voltage Berbasis Kontrol PI”. Prosiding Seminar Nasional Terapan Riset Inovatif (SENTRINOV), Vol. 6, No. 1, 2020.
S. D. Nugraha, N. C. Ersha, E. Sunarno, O. A. Qudsi, L. Ferdiansyah, G. Prabowo, “Desain Baterai Charger Kendaraan Listrik dengan Metode Constan Current dan Constan Voltage”. JTT (Jurnal Teknologi Terpadu), Vol. 9, No. 2, 2021.
I. Buchmann, “Batteries in A Portable World A Handbook on Rechargeable Batteries for Non-Engineers”. Third Edition, 2011.
M. Nizam, N. A. Ali, “Design and Development of Fast Charging Battery using Fuzzy Logic Control Technique”. Journal of Electrical, Electronic, Information, and Communication Technology, Vol. 1, No. 1, 2021.
H. Heryanto, Y. Rahmawaty, T. Manurung, “Performance Analysis of VRLA Battery for DC Load at Telecommunication Base Station”. ELKHA: Jurnal Teknik Elektro, Vol. 13, No. 2, 2021.
I. P. G. I. Dwipayana, I. N. S. Kumara, I. N. Setiawan, “Status of Battery in Indonesia to Support Application of Solar PV with Energy Storage”. Journal of Electrical, Electronics and Informatics, Vol. 5, No. 1, 2021.
K. M. R. Pebriningtyas, A. Musyafa, K. Indriawati, “Penelusuran Daya Maksimum Pada Panel Photovoltaic Menggunakan Kontrol Logika Fuzzy di Kota Surabaya”. Jurnal Teknik ITS, Vol. 2, No. 1, 2013.
F. I. Pasaribu, M. Reza, “Rancang Bangun Charging Station Berbasis Arduino Menggunakan Solar Cell 50 WP”. RELE (Rekayasa Elektrikal dan Energi): Jurnal Teknik Elektro, Vol. 3, No. 2, 2021.
H. R. Iskandar, C. B., Elysees, R. Ridwanulloh, A. Charisma, H. Yuliana, “Analisis Performa Baterai Jenis Valve Regulated Lead Acid pada PLTS Off-grid 1 kWp”. Jurnal Teknologi, Vol. 13, No. 2, 2021.
S. Vijayalakshmi, E. Arthika, G. S. Priya, “Modeling and Simulation of Interleaved Buck-Boost Converter with PID Controller”. In 2015 IEEE 9th International Conference on Intelligent Systems and Control (ISCO), 2015.
G. Sivanagaraju, S. Samata, L. M. Kunzler, K. R. Feistel, A. K., Rathore, L. A. Lopes, “PFC Interleaved Buck-Boost Converter for Telecom Power Application”. In IECON 2017-43rd Annual Conference of the IEEE Industrial Electronics Society., 2017.
S. T. Siddharthan, J. Gnanavadivel, S. J. Christa, “Design and Analysis of Interleaved Buck-Boost Converter for Household Appliances”. In 2020 4th International Conference on Trends in Electronics and Informatics (ICOEI) (48184), 2020.
D. W. Hart, “Power Electronics”. 2021. New York. The McGraw-Hill Companies.
Z. Zachari, E. Purwanto, S. D. Nugraha, “Rancang Bangun Battery Charger CC-CV dengan Forward Converter”. Power Elektronik: Jurnal Orang Elektro, Vol. 11, No. 1, 2022.
F. Rahmatullah, “Desain dan Simulasi Battery Charger Metode CC-CV (Constant Current-Constant Voltage) dengan Kontrol Logika Fuzzy Menggunakan MATLAB”. CYCLOTRON, Vol. 4, No. 2, 2021.
I. Sudiharto, E. Wahjono, N. F. R. Lugiana, “Design and Simulation of Utilization of Solar Cells as Battery Chargers CC-CV (Constant Current-Constant Voltage) Method with Fuzzy Control”. Kinetik: Game Technology, Information System, Computer Network, Computing, Electronics, and Control, Vol. 7, No. 2, 2022.
DOI: https://doi.org/10.18196/jet.v7i1.16932
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