Battery Charger Design with PI Control Based on Arduino Uno R3
Main Article Content
Abstract
In line with the increase in the electrification ratio target to 100% in 2025, the electricity demand is projected to increase more than 7 times to 1,611 TWh in 2050. the share reached 58% or about 50 GW. On the other hand, the current energy diversification carried out by the government is directed at the utilization of renewable energy that exists in nature. One of the important components in this power plant is the battery. This is because the battery functions as a store of energy generated from the vertical wind turbine. After use, the battery needs to be recharged. The process of recharging the battery that is not suitable can cause a decrease in battery performance. Therefore, in the process of charging this battery, a safe battery charging system is needed for the battery to maintain battery performance and extend battery lifetime. This battery charging system uses a PI control system. From the research that has been done, it was found that. From the research that has been done, it is found that the output voltage value of the battery charger that is made has an average error percentage of 1.373% and the power output efficiency of the battery charger is 83-95%.
Downloads
Article Details
Copyright (c) 2022 Agung Prasetyo Utomo, Anggara Trisna Nugraha Angga, Dwi Sasmita Aji Pambudi, Dadang Priyambodo
This work is licensed under a Creative Commons Attribution-ShareAlike 4.0 International License.
References
Dutta,A. 2012. Design of an Arduino Based MPPT Solar Charger Controller. Bangladesh: Brac University.
Floyd, Thomas L. (2012). Electronic Devices (Electron Flow Version). New Jersey: Prentice Hall.
Gautam, Aditya Raw., Deshpande, D.M., Suresh, Arisutha., & Mittal, Arvind. (2013). A Double Input DC to DC BuckBoost Converter for Low Voltage Fotovoltaic/Wind Systems. International Journal of ChemTech Reseach, 5: 1018-1020.
Gurav,R. 2017. Paper of Implementasion of MPPT Charge Control Based BuckBost Converter.India: Maharasta
Kastha, Debaprasad, and Bimal K. Bose. "Fault mode single-phase operation of a variable frequency induction motor drive and improvement of pulsating torque characteristics." IEEE Transactions on Industrial Electronics 41.4 (1994): 426-433.
Kazimierczuk, Marian K. (2015). Pulse-Width Modulated DCDC Power Converter. USA : John Wiley & Sons, Inc.
Nugraha, Anggara Trisna, and Dadang Priyambodo. "Design of Pond Water Turbidity Monitoring System in Arduino-based Catfish Cultivation to Support Sustainable Development Goals 2030 No. 9 Industry, Innovation, and Infrastructure." Journal of Electronics, Electromedical Engineering, and Medical Informatics 2.3 (2020): 119-124.
Nugraha, Anggara Trisna, and Dadang Priyambodo. "Design of a Monitoring System for Hydroganics based on Arduino Uno R3 to Realize Sustainable Development Goals number 2 Zero Hunger." Journal of Electronics, Electromedical Engineering, and Medical Informatics 3.1 (2021): 50-56.
Operate-motor-3-phase-with-electromagnetic-controlling-system / University of Sumatra.
Pikatan, Sugata., 1999, Conversion of Wind Energy. Surabaya: Department of Mathematics and Natural Sciences, University of Surabaya.
Priyambodo, Dadang. "Prototype Hybrid Power Plant of Solar Panel and Vertical Wind Turbine as a Provider of Alternative Electrical Energy at Kenjeran Beach Surabaya." Journal of Electronics, Electromedical Engineering, and Medical Informatics 2.3 (2020): 108-113.
Priyambodo, Dadang. "Design and Build A Photovoltaic and Vertical Savonious Turbine Power Plant as an Alternative Power Supply to Help Save Energy in Skyscrapers." Journal of Electronics, Electromedical Engineering, and Medical Informatics 2.3 (2020): 57-63.
Qazi, Salahuddin. (2017). Standalone Photovoltaik (PV)Systems for disaster relief and remote Areas. United State : Elsevier
Yahma Wisnani, 2004, Queri Ganda Pada Sistem Temu Kembali Informasi Berbasis Jaringan Inferensi, MAKARA SAINS, Vol.8 No.2, pp. 76-84.
Juan Bernabe Moreno, 2004, Information Retrieval Meets Semantic Web, Content Management and Information Retrieval Converging.
Christian Beecks and Thomas Seidl, 2009, Efficient Content-Based Information Retrieval: A New Similarity Measure for Multimedia Data, Symposium on Future Directions in Information Access
Margaret Anne Storey, 2006, Theories, Tools and Research Methods in Program Comprehension: Past, Present and Future, Springer, DOI 10. 1007/s11219-006-9216-4.
Janet Feigenspan, 2011, Program Comprehension of Feature-Oriented Software Development, International Conference on Software Engineering.
Seifedine Kadry, 2011, A New Proposed Technique to Improve Software Regression Testing Cost, International Journal of Security and Its Application, Vol.5, No.3.
Sheo Kumar, Sugandha Chakraverti, S.C. Agarwal and Ashish Kumar Chakraverti, 2012, Modified COCOMO Model for Maintenance Cost Estimation of Real Time System Software, International Journal of Research In Engineering & Applied Sciences, Volume 2, Issue 3.
Tara Kelly and Jim Buckley, 2009, Cognitive Levels and Software Maintenance Sub-Tasks, PPIG - Limerick.
Sugumaran Nallusamy, Suhaimi Ibrahim and Mohd Naz'ri Mahrin, 2011, A Software Redocumentation Proses Using Ontology Based Approach in Software Maintenance, International Journal of Information and Electronics Engineering, Vol.1, No.2.
Manjot Signh Ahuja, Surender Dhaiya and Neha Sadana, 2014, A Metric Mased Approach to Measure the Quality of Inline Comments in Source Code, International Journal of Computer Application, Volumen 1, Issue 4.
Amandeep Kaur and Balraj Singh, 2014, Study on Metrics Based Approach for Detection Software Code Clones, International Journal of Advanced Research in Computer Science and Software Engineering, Volume 4, Issue 1, pp. 601 - 603.
Michael P. O'Brien, 2003, Software Comprehension - A Review & Research Direction, Technical Report UL-CSIS-03-3.
W. Meng, J. Rilling, Y. Zhang, R. Witte, and P. Charland,2006, An Ontological Software Comprehension Process Model, http://users.encs.concordia.ca/~rilling/DRDC/Publications/ATEM_2006_Paper_15_Wen_Jun_Meng.pdf.