Design of 30 A PWM Type Solar Charge Controller Module for 100 Watt Lamp Load

Ilmir Rizki Imaduddin, Muhammad Hasan Basri, Abdul Mujib, Moh. Taufiqur Rahman, Ahmad Vardin Khairudin, Sefri Aditya Eka, Moh. Husen, Isbet Fatoni
DOI: https://doi.org/10.33650/jeecom.v6i2.9659



Abstract

The electrical energy produced by solar panels has been used as a renewable energy solution to support human life. In reality, this alternative energy has not been widely used due to the constraints of expensive initial investment, so it is necessary to design solar power generation components, one of which is a reliable, optimal, efficient and economical solar charge controller. The controller is made using the switching method. The switching process can occur by setting the duty cycle through the embedded controller in the solar charge controller circuit. Based on the test results, a duty cycle value of 1% to 100% can occur the switching process. The duty cycle that has been set on the solar charge controller is 90%. The duty cycle is a duty cycle where the output voltage approaches the setpoint of the minimum charger voltage. The input voltage from the solar panel when connected to the battery of ±16 volts can be regulated to ±14 volts by the solar charge controller. Based on the battery charging specifications, the controller output can be used to charge a 12 volt battery.

Keywords

Battery; Charging Closed; Loop Control; Panel Surya; Switching Control

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References

Rabaia, M. K. H., L. Abdelkareem, M. A., Sayed, E. T., Elsaid, K., Chae, K. -J., Wilberforce, T., et al., (2021), "Environmental impacts of solar energy systems: A review". Science of The Total Environment, 754, Article 141989, doi: 10.1016/j.scitotenv.2020.141989.

Eka, P. L., Yani, P., Sujono, Rummi, S., Nifty, F., Ardyono, P., Vita, L., Mauridhi, H., P., (20210, “Potential Usage of Solar Energy as a Renewable Energy Source in Petukangan Utara, South Jakarta,” Jurnal Rekayasa Elektrika, Vol. 17, no. 4, Hal. 212–216, doi: 10.17529/jre.v17i4.22538.

Faisal Afif, and Awaludin Martin, (2022), “Tinjauan Potensi dna Kebijakan energi Surya di Indonesia,” Jurnal Engine: Energi, Manufaktur dan Material, Vol. 6, no. 1: 43-52, doi: 10.30588/jeemm.v6i1.997.

M. Shariful Islam, (2021) “A Design of a Robust Analog PWM Solar Charge Controller for the Off-Grid Solar Home System: Fixed Frequency Current Control Mode” Universal Journal of Electrical and Electronic Engineering, 8(3): 41-49, doi: 10.13189/ujeee.2021.080301.

David, K., Afam, U., Mundu, M. M., Kelechi, J. U., (2024) “Design and Implementation of Charge Controller for Solar PV Systems for Emergency Situations in Health Facilities in Rural Areas of Uganda,” Engineering Sicienc &Technology., doi: 10.37256/est.5220244153.

J. Kumar, N. R. Parhyar, M. K. Panjwani, and D. Khan, (2021), “Design and performance analysis of PV grid-tied system with energy storage system”, International Journal of Electrical and Computer Engineering, vol. 11, no. 2, pp. 1077, doi: 10.11591/ijece.v11i2.pp1077-1085.

R. Santhosh, S. U. Sabareesh, R. Aswin, and R. Mahalakshmi, (2021), “Hardware design of PIC microcontroller based charge controller and MPPT for the standalone PV-Battery charging system”, in 2021 International Conference on Recent Trends on Electronics, Information, Communication & Technology (RTEICT). Bangalore, India: IEEE, pp. 172-175, doi: 10.1109/RTEICT52294.2021.9573523.

Charles, K., A., Matthew, N. O. S., Fundamental of Electric Circuits, 5th ed. McGraw-Hill, USA, 2013.

Eric, P. U., Michael, M. D. R., Recommended Practices for Charge Controller, IEA PVPS: Internatioanal Energy Agency Implementation Agreement on Photovoltaic Power Systems, Task III, Report IEA PVPS T3-05:1998.

Robert, L. B., Louis, N.,Electronic Devices and Circuit Theory, 11th ed. Pearson, New Jersey, 2013.

Setyobudi, R. (2023). Utilization of tds sensors for water quality monitoring and water filtering of carp pools using IoT. EUREKA: Physics and Engineering, (6), 69-77.

A. K. Dubey and R. K. Tripathi, "Design and Implementation of PWM-Based Solar Charge Controllers," International Journal of Renewable Energy Research, vol. 8, no. 2, pp. 589-595, 2018.

M. Y. Ali, S. S. M. Bashi, and A. F. Abidin, "Performance Analysis of PWM Solar Charge Controllers for Renewable Energy Systems," Renewable Energy Journal, vol. 36, no. 5, pp. 1357-1362, 2019.

B. S. Reddy, K. Sudhakar, and S. Samykano, "Solar Charge Controller Using PWM Technique for Off-Grid Applications," Journal of Solar Energy, vol. 27, no. 4, pp. 329-335, 2017.

P. Chavan and S. Mohan, "Design Optimization of Solar Charge Controllers with High Efficiency PWM," IEEE Transactions on Industrial Electronics, vol. 55, no. 6, pp. 3451-3458, Jun. 2019.

R. Sharma and H. Singh, "Development of 30 A Solar Charge Controller for PV Systems," International Journal of Power Electronics and Drive Systems, vol. 10, no. 3, pp. 1496-1503, 2020.

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This work is licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.

Journal of Electrical Engineering and Computer (JEECOM)
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