Research Article
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Year 2023, Issue: 052, 149 - 173, 29.03.2023
https://doi.org/10.59313/jsr-a.1213162

Abstract

Supporting Institution

Kastamonu Üniversitesi

Project Number

Ü-BAP01/2021-55

Thanks

This study is supported by the scientific research project entitled with ‘Tubitak Efficiency Challenge Yarış Aracı Atabey Gazi’nin modernizasyonu ve yerleşik şarj birimi tasarımı’ with the number Ü-BAP01/2021-55, by Kastamonu University.

References

  • [1] Collin, A. J., Djokic, S. Z., Thomas, H. F., and Meyer, J. (2011, October). Modelling of electric vehicle chargers for power system analysis. In 11th International Conference on Electrical Power Quality and Utilisation (pp. 1-6). IEEE.
  • [2] Safayatullah, M. D., Elrais, M. T., Ghosh, S. andRezaii, R. (2022). A comprehensive review of power converter topologies and control methods for electric vehicle fast charging applications. IEEE Access, 10, 40754-40793.
  • [3] Khalid, M., Ahmad, F., Panigrahi, B. J., and Al-fagih, L. (2022) A comprehensive review on advanced charging topologies and methodologies for electric vehicle battery. Journal of Energy Storage, 53, 105084.
  • [4] Oman, H. (1998, November). On-board energy and power management on electric vehicles: effect of battery type. In 17th DASC. AIAA/IEEE/SAE. Digital Avionics Systems Conference. Proceedings (Cat. No. 98CH36267) (Vol. 2, pp. I43-1). IEEE.
  • [5] Martins, L. S., Guimares, L. F., Junior, A. B. B., Tenorio, J. A. S., and Espinoza, D. C. R. (2021) Electric car battery: An overview on global demand, recycling and future approaches towards sustainability. Journal of Environmental Management, 295(1), 113091.
  • [6] Liaqat, M., Ghadi, Y. Y., Adnan, M. and Fazal, M. R. (2022). Multicriteria Evaluation of Portable Energy Storage Technologies for Electric Vehicles. IEEE Access, 10, 64890-64903.
  • [7] Kim, T. H., Park, J. S., Chang, S. K., Choi, S., Ryu, J. H., and Song, H. K. (2012). The current move of lithium-ion batteries towards the next phase. Advanced Energy Materials, 2(7), 860-872.
  • [8] Elmahallawy, M., Elfouly, T., Alouani, A. and Massoud, A. M. (2022). A Comprehensive Review of Lithium-IonBatteries Modeling, and State of Health and Remaining Useful Lifetime Prediction. IEEE Access, 10, 119040-119070.
  • [9] Chen, W., Liang, J., Yang, Z., and Li, G. (2021) A Review of Lithium-Ion Battery for Electric Vehicle Applications and Beyond. Energy Procedia, 158, 4363-4368.
  • [10] Duan, J., Tang, X., Dai, H., Yang, Y., Wu, W., Wei, X., and Huang, Y. (2020). Building safe lithium-ion batteries for electric vehicles: a review. Electrochemical Energy Reviews, 3(1), 1-42.
  • [11] Umair Ali, M., Hussain Nengroo, S., Adil Khan, M., Zeb, K., Ahmad Kamran, M., and Kim, H. J. (2018). A real-time simulink interfaced fast-charging methodology of lithium-ion batteries under temperature feedback with fuzzy logic control. Energies, 11(5), 1122.
  • [12] Kılıc, E. (2019). Da-da yükselten dönüştürücü ile elektrikli araç batarya şarj cihazi tasarimi. Kahramanmaraş Sütçü İmam Üniversitesi Mühendislik Bilimleri Dergisi, 22(4), 281-287.
  • [13] Chéron, E., and Zins, M. (1997). Electric vehicle purchasing intentions: The concern over battery charge duration. Transportation Research Part A: Policy and Practice, 31(3), 235-243.
  • [14] LaMonaca, S., and Ryan, L. (2022). The state of play in electric vehicle charging services–A review of infrastructure provision, players, and policies. Renewable and Sustainable Energy Reviews, 154, 111733.
  • [15] Majid, A. (2012). Analysis and implementation of switch mode power supplies in MHz frequency region (Doctoral dissertation, Mid Sweden University).
  • [16] Hung, Y. C., Shyu, F. S., Lin, C. J., and Lai, Y. S. (2003, November). New voltage balance technique for capacitors of symmetrical half-bridge converter with current mode control. In The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003. (Vol. 1, pp. 365-369). IEEE.
  • [17] Al-Badrani, H., Ameen, Y. M., and Kadir, M. N. A. (2021, October). An AC/DC switch mode power supply based on half bridge DC/DC converter for low power applications. In 2021 12th International Renewable Energy Congress (IREC) (pp. 1-6). IEEE.
  • [18] Hung, Y. C., Shyu, F. S., Lin, C. J., and Lai, Y. S. (2003, November). Design and implementation of symmetrical half-bridge DC-DC converter. In The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003. (Vol. 1, pp. 338-342). IEEE.
  • [19] Randall Shafer, “Fundamentals of Power Electronics with Matlab”, Charles River Media, 1st ed., 2007.
  • [20] Armata J.M, Besrest B., Pauly R.,“PSIM/MATLAB cosimulation for electrical architectures global models”, AES 2005
  • [21] Khader, S., Hadad, A., and Abu-Aisheh, A. A. (2011, April). The application of psim and matlab/simulink in power electronics courses. In 2011 IEEE Global Engineering Education Conference (EDUCON) (pp. 118-121). IEEE.
  • [22] Mehar, H. (2013). The case study of simulation of power converter circuits using Psim software in teaching. American Journal of Educational Research, 1(4), 137-142.
  • [23] Asadi, F., and Eguchi, K. (2021). Power Electronics Circuit Analysis with PSIM®. In Power Electronics Circuit Analysis with PSIM®. De Gruyter.
  • [24] Muhammad, R. H., Narendra, K., and Ashish, R. K. (2014). Power Electronics Devices, Circuits and Applications. Pearson Education.
  • [25] Kushwaha, R., and Singh, B. (2022) A Bridgeless Isolated Half-Bridge Converter Based EV Charger With Power Factor Preregulation. IEEE Transactions on Industry Applications 58(3), 3967-3976.
  • [26] Park, Y., Chakraborty, S. and Khaligh, A. (2022) DAB Converter for EV Onboard Chargers Using Bare-Die SiC MOSFETs and Leakage-Integrated Planar Transformer. IEEE Transactions on Transportation Electrification 8(1), 209-224.
  • [27] Mendoza-Varela, I. A., Alvarez-Diazcomas, A., Rodriguez-Resendiz, J., and Martinez-Prado, M. A. (2021) Modeling and Control of a Phase-Shifted Full-Bridge Converter for a LiFePO4 Battery Charger. MDPI Electronics 10(21), 2568.
  • [28] Al-Attar, H., Hamida, M. A., Ghanes, M., and Taleb, M. (2022) LLC DC-DC Converter Performances Improvement for Bidirectional Electric Vehicle Charger Application. MDPI World Electric Vehicle Journal 13(1), 2.

DESIGN AND APPLICATION OF AC/DC SWITCHING POWER SUPPLY WITH HALF BRIDGE DC/DC CONVERTER TOPOLOGY FOR BATTERY SYSTEMS of ELECTRICAL VEHICLE

Year 2023, Issue: 052, 149 - 173, 29.03.2023
https://doi.org/10.59313/jsr-a.1213162

Abstract

This study presents design, analysis and application details of electrical vehicle battery charge device based on half bridge DC-DC converter. Half bridge DC-DC converter in the paper has 620 W power, 25 kHz switching frequency and input DC voltage is obtained by uncontrolled bridge rectifier. In addition, information about the battery that is charged, and battery pack are given. Besides, a protection structure of battery is added by measuring both current and voltage of battery. Firstly, equations required for half bridge DC-DC converter is derived and simulation of battery charge circuit is realized by using PSIM and MATLAB/Simulink. Then, the results of the experimental study and the simulation results are given comparatively. The experimental results prove the accuracy of the simulation studies.

Project Number

Ü-BAP01/2021-55

References

  • [1] Collin, A. J., Djokic, S. Z., Thomas, H. F., and Meyer, J. (2011, October). Modelling of electric vehicle chargers for power system analysis. In 11th International Conference on Electrical Power Quality and Utilisation (pp. 1-6). IEEE.
  • [2] Safayatullah, M. D., Elrais, M. T., Ghosh, S. andRezaii, R. (2022). A comprehensive review of power converter topologies and control methods for electric vehicle fast charging applications. IEEE Access, 10, 40754-40793.
  • [3] Khalid, M., Ahmad, F., Panigrahi, B. J., and Al-fagih, L. (2022) A comprehensive review on advanced charging topologies and methodologies for electric vehicle battery. Journal of Energy Storage, 53, 105084.
  • [4] Oman, H. (1998, November). On-board energy and power management on electric vehicles: effect of battery type. In 17th DASC. AIAA/IEEE/SAE. Digital Avionics Systems Conference. Proceedings (Cat. No. 98CH36267) (Vol. 2, pp. I43-1). IEEE.
  • [5] Martins, L. S., Guimares, L. F., Junior, A. B. B., Tenorio, J. A. S., and Espinoza, D. C. R. (2021) Electric car battery: An overview on global demand, recycling and future approaches towards sustainability. Journal of Environmental Management, 295(1), 113091.
  • [6] Liaqat, M., Ghadi, Y. Y., Adnan, M. and Fazal, M. R. (2022). Multicriteria Evaluation of Portable Energy Storage Technologies for Electric Vehicles. IEEE Access, 10, 64890-64903.
  • [7] Kim, T. H., Park, J. S., Chang, S. K., Choi, S., Ryu, J. H., and Song, H. K. (2012). The current move of lithium-ion batteries towards the next phase. Advanced Energy Materials, 2(7), 860-872.
  • [8] Elmahallawy, M., Elfouly, T., Alouani, A. and Massoud, A. M. (2022). A Comprehensive Review of Lithium-IonBatteries Modeling, and State of Health and Remaining Useful Lifetime Prediction. IEEE Access, 10, 119040-119070.
  • [9] Chen, W., Liang, J., Yang, Z., and Li, G. (2021) A Review of Lithium-Ion Battery for Electric Vehicle Applications and Beyond. Energy Procedia, 158, 4363-4368.
  • [10] Duan, J., Tang, X., Dai, H., Yang, Y., Wu, W., Wei, X., and Huang, Y. (2020). Building safe lithium-ion batteries for electric vehicles: a review. Electrochemical Energy Reviews, 3(1), 1-42.
  • [11] Umair Ali, M., Hussain Nengroo, S., Adil Khan, M., Zeb, K., Ahmad Kamran, M., and Kim, H. J. (2018). A real-time simulink interfaced fast-charging methodology of lithium-ion batteries under temperature feedback with fuzzy logic control. Energies, 11(5), 1122.
  • [12] Kılıc, E. (2019). Da-da yükselten dönüştürücü ile elektrikli araç batarya şarj cihazi tasarimi. Kahramanmaraş Sütçü İmam Üniversitesi Mühendislik Bilimleri Dergisi, 22(4), 281-287.
  • [13] Chéron, E., and Zins, M. (1997). Electric vehicle purchasing intentions: The concern over battery charge duration. Transportation Research Part A: Policy and Practice, 31(3), 235-243.
  • [14] LaMonaca, S., and Ryan, L. (2022). The state of play in electric vehicle charging services–A review of infrastructure provision, players, and policies. Renewable and Sustainable Energy Reviews, 154, 111733.
  • [15] Majid, A. (2012). Analysis and implementation of switch mode power supplies in MHz frequency region (Doctoral dissertation, Mid Sweden University).
  • [16] Hung, Y. C., Shyu, F. S., Lin, C. J., and Lai, Y. S. (2003, November). New voltage balance technique for capacitors of symmetrical half-bridge converter with current mode control. In The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003. (Vol. 1, pp. 365-369). IEEE.
  • [17] Al-Badrani, H., Ameen, Y. M., and Kadir, M. N. A. (2021, October). An AC/DC switch mode power supply based on half bridge DC/DC converter for low power applications. In 2021 12th International Renewable Energy Congress (IREC) (pp. 1-6). IEEE.
  • [18] Hung, Y. C., Shyu, F. S., Lin, C. J., and Lai, Y. S. (2003, November). Design and implementation of symmetrical half-bridge DC-DC converter. In The Fifth International Conference on Power Electronics and Drive Systems, 2003. PEDS 2003. (Vol. 1, pp. 338-342). IEEE.
  • [19] Randall Shafer, “Fundamentals of Power Electronics with Matlab”, Charles River Media, 1st ed., 2007.
  • [20] Armata J.M, Besrest B., Pauly R.,“PSIM/MATLAB cosimulation for electrical architectures global models”, AES 2005
  • [21] Khader, S., Hadad, A., and Abu-Aisheh, A. A. (2011, April). The application of psim and matlab/simulink in power electronics courses. In 2011 IEEE Global Engineering Education Conference (EDUCON) (pp. 118-121). IEEE.
  • [22] Mehar, H. (2013). The case study of simulation of power converter circuits using Psim software in teaching. American Journal of Educational Research, 1(4), 137-142.
  • [23] Asadi, F., and Eguchi, K. (2021). Power Electronics Circuit Analysis with PSIM®. In Power Electronics Circuit Analysis with PSIM®. De Gruyter.
  • [24] Muhammad, R. H., Narendra, K., and Ashish, R. K. (2014). Power Electronics Devices, Circuits and Applications. Pearson Education.
  • [25] Kushwaha, R., and Singh, B. (2022) A Bridgeless Isolated Half-Bridge Converter Based EV Charger With Power Factor Preregulation. IEEE Transactions on Industry Applications 58(3), 3967-3976.
  • [26] Park, Y., Chakraborty, S. and Khaligh, A. (2022) DAB Converter for EV Onboard Chargers Using Bare-Die SiC MOSFETs and Leakage-Integrated Planar Transformer. IEEE Transactions on Transportation Electrification 8(1), 209-224.
  • [27] Mendoza-Varela, I. A., Alvarez-Diazcomas, A., Rodriguez-Resendiz, J., and Martinez-Prado, M. A. (2021) Modeling and Control of a Phase-Shifted Full-Bridge Converter for a LiFePO4 Battery Charger. MDPI Electronics 10(21), 2568.
  • [28] Al-Attar, H., Hamida, M. A., Ghanes, M., and Taleb, M. (2022) LLC DC-DC Converter Performances Improvement for Bidirectional Electric Vehicle Charger Application. MDPI World Electric Vehicle Journal 13(1), 2.
There are 28 citations in total.

Details

Primary Language English
Subjects Engineering
Journal Section Research Articles
Authors

Celaletdin Akgül 0000-0001-7214-9478

Yücel Çetinceviz 0000-0001-6834-9442

Erdal Şehirli 0000-0003-0822-3201

Project Number Ü-BAP01/2021-55
Publication Date March 29, 2023
Submission Date December 1, 2022
Published in Issue Year 2023 Issue: 052

Cite

IEEE C. Akgül, Y. Çetinceviz, and E. Şehirli, “DESIGN AND APPLICATION OF AC/DC SWITCHING POWER SUPPLY WITH HALF BRIDGE DC/DC CONVERTER TOPOLOGY FOR BATTERY SYSTEMS of ELECTRICAL VEHICLE”, JSR-A, no. 052, pp. 149–173, March 2023, doi: 10.59313/jsr-a.1213162.