Design of an Uninterrupted Power Supply with Li-Ion Battery Pack: A Proposal for a Cost-Efficient Design with High Protection Features

Authors

  • Thealfaqar A. Abdul-jabbar Middle Technical University, Baghdad, Iraq
  • Adel A. Obed Middle Technical University, Baghdad, Iraq
  • Ahmed J. Abid Middle Technical University, Baghdad, Iraq

DOI:

https://doi.org/10.51173/jt.v3i2.296

Keywords:

Battery Management System (BMS), Lithium-ion Protection, Passive Balancing, Uninterrupted Power Supply (UPS)

Abstract

While decreasing their cost, lithium-ion batteries began to enter a vast domain for energy storage field, including solar systems and electric vehicles, due to their high energy density compared to other types. Besides, li-ion batteries require a safe and secure ground to reach the best performance and decrease the explosion risk. The safe operation of the battery is based on the main protection features and balancing the cells. This study offers a battery BMS design that protects li-ion batteries from overcharging, over-discharging and overheating. It is also offering passive cell balancing, an uninterrupted power source to load, and monitoring data. The used controller is Arduino mega 2560, which manages all the hardware and software protection features. Software features that include 1) variable charging speed according to the batteries charging status, 2) measuring the batteries state of health and state of charge, 3) controlling the uninterrupted driver, 4) regulating the charge and discharge voltage, and 5) measure and display all readings.

Downloads

Download data is not yet available.

References

C. Piao, Z. Wang, J. Cao, W. Zhang, and S. Lu, "Lithium-ion battery cell-balancing algorithm for battery management system based on real-time outlier detection," Mathematical problems in engineering, vol. 2015, 2015.

J. Yan, Z. Cheng, G. Xu, H. Qian, and Y. Xu, "Fuzzy control for battery equalization based on state of charge," in 2010 IEEE 72nd Vehicular Technology Conference-Fall, 2010: IEEE, pp. 1-7.

F. Zhang, "Modeling and control of a modular battery management system for lithium-ion battery packs," Electrical, Computer & Energy Engineering Graduate Theses & Dissertations, vol. 153, 2017.

L. Saw, Y. Ye, and A. Tay, "Electro-thermal analysis and integration issues of lithium ion battery for electric vehicles," Applied energy, vol. 131, pp. 97-107, 2014.

A. Farmann and D. U. Sauer, "A comprehensive review of on-board State-of-Available-Power prediction techniques for lithium-ion batteries in electric vehicles," Journal of Power Sources, vol. 329, pp. 123-137, 2016.

B. Scrosati and J. Garche, "Lithium batteries: Status, prospects and future," Journal of power sources, vol. 195, no. 9, pp. 2419-2430, 2010.

H. Popp, J. Attia, F. Delcorso, and A. Trifonova, "Lifetime analysis of four different lithium ion batteries for (plug-in) electric vehicle," in Transport Research Arena (TRA) 5th Conference: Transport Solutions from Research to Deployment, 2014.

S. Santhanagopalan and R. E. White, "Quantifying cell-to-cell variations in lithium ion batteries," International Journal of Electrochemistry, vol. 2012, 2012.

M. Uno and K. Tanaka, "Influence of high-frequency charge–discharge cycling induced by cell voltage equalizers on the life performance of lithium-ion cells," IEEE Transactions on vehicular technology, vol. 60, no. 4, pp. 1505-1515, 2011.

S. Yarlagadda, T. T. Hartley, and I. Husain, "A battery management system using an active charge equalization technique based on a DC/DC converter topology," IEEE Transactions on Industry Applications, vol. 49, no. 6, pp. 2720-2729, 2013.

H. Fisk and J. Leijgård, "A Battery Management Unit," 2010.

İ. Aydın and Ö. Üstün, "A basic battery management system design with IoT feature for LiFePO4 batteries," in 2017 10th International Conference on Electrical and Electronics Engineering (ELECO), 2017: IEEE, pp. 1309-1313.

E. Chatzinikolaou and D. J. Rogers, "Hierarchical distributed balancing control for large-scale reconfigurable AC battery packs," IEEE Transactions on Power Electronics, vol. 33, no. 7, pp. 5592-5602, 2017.

K. W. E. Cheng, B. Divakar, H. Wu, K. Ding, and H. F. Ho, "Battery-management system (BMS) and SOC development for electrical vehicles," IEEE transactions on vehicular technology, vol. 60, no. 1, pp. 76-88, 2010.

Y. Li and Y. Han, "A module-integrated distributed battery energy storage and management system," IEEE Transactions on Power Electronics, vol. 31, no. 12, pp. 8260-8270, 2016.

H. Rahimi-Eichi, U. Ojha, F. Baronti, and M.-Y. Chow, "Battery management system: An overview of its application in the smart grid and electric vehicles," IEEE Industrial Electronics Magazine, vol. 7, no. 2, pp. 4-16, 2013.

X. Xiao, X. Liu, L. Qiao, and S. Li, "A Li-ion Battery Management System Based on MCU and OZ8920," Procedia engineering, vol. 29, pp. 738-743, 2012.

T. Namith and M. P. Shankpal, "Design and development of efficient battery charging and cell balancing for battery management system," SASTech-Technical Journal of RUAS, vol. 11, no. 2, pp. 15-22, 2012.

I. Aizpuru, U. Iraola, J. Canales, M. Echeverria, and I. Gil, "Passive balancing design for Li-ion battery packs based on single cell experimental tests for a CCCV charging mode," in 2013 International Conference on Clean Electrical Power (ICCEP), 2013: IEEE, pp. 93-98.

F. Zhu, G. Liu, C. Tao, K. Wang, and K. Jiang, "Battery management system for Li-ion battery," The Journal of Engineering, vol. 2017, no. 13, pp. 1437-1440, 2017.

R. P. Sujatmiko, T. Abuzairi, M. Rizkinia, and T. A. Kurniawan, "Design of Overcharging Protection and Passive Balancing Circuits Using Dioda for Lithium-Ion Battery Management System," in 2019 16th International Conference on Quality in Research (QIR): International Symposium on Electrical and Computer Engineering, 2019: IEEE, pp. 1-4.

K. Ismail, A. Nugroho, and S. Kaleg, "Passive balancing battery management system using MOSFET internal resistance as balancing resistor," in 2017 International Conference on Sustainable Energy Engineering and Application (ICSEEA), 2017: IEEE, pp. 151-155.

S. Kivrak, T. Özer, and Y. Oğuz, "Battery Management System Implementation with Pasive Control Method," in 2018 IV International Conference on Information Technologies in Engineering Education (Inforino), 2018: IEEE, pp. 1-4.

S. Kıvrak, T. Özer, Y. Oğuz, and E. B. Erken, "Battery management system implementation with the passive control method using MOSFET as a load," Measurement and Control, vol. 53, no. 1-2, pp. 205-213, 2020.

M. Nizam, H. Maghfiroh, R. A. Rosadi, and K. D. Kusumaputri, "Battery management system design (BMS) for lithium ion batteries," in AIP Conference Proceedings, 2020, vol. 2217, no. 1: AIP Publishing LLC, p. 030157.

R. Di Rienzo, M. Zeni, F. Baronti, R. Roncella, and R. Saletti, "Passive balancing algorithm for charge equalization of series connected battery cells," in 2020 2nd IEEE International Conference on Industrial Electronics for Sustainable Energy Systems (IESES), 2020, vol. 1: IEEE, pp. 73-79.

Y. Barsukov and J. Qian, Battery power management for portable devices. Artech house, 2013.

P. Weicker, A systems approach to lithium-ion battery management. Artech house, 2013.

D. Andrea, Battery management systems for large lithium ion battery packs. Artech house, 2010.

M. Daowd, N. Omar, P. Van Den Bossche, and J. Van Mierlo, "Passive and active battery balancing comparison based on MATLAB simulation," in 2011 IEEE Vehicle Power and Propulsion Conference, 2011: IEEE, pp. 1-7.

M. Isaacson, R. Hollandsworth, P. Giampaoli, F. Linkowsky, A. Salim, and V. Teofilo, "Advanced lithium ion battery charger," in Fifteenth Annual Battery Conference on Applications and Advances (Cat. No. 00TH8490), 2000: IEEE, pp. 193-198.

T. A. Stuart and W. Zhu, "Fast equalization for large lithium ion batteries," IEEE Aerospace and Electronic Systems Magazine, vol. 24, no. 7, pp. 27-31, 2009.

S. Chakraborty, A. K. Jain, and N. Mohan, "Novel converter topology and algorithm for simultaneous charging and individual cell balancing of multiple Li-ion batteries," in INTELEC 2004. 26th Annual International Telecommunications Energy Conference, 2004: IEEE, pp. 248-253.

Y.-S. Lee, C.-Y. Duh, G.-T. Chen, and S.-C. Yang, "Battery equalization using bi-directional Cuk converter in DCVM operation," in 2005 IEEE 36th Power Electronics Specialists Conference, 2005: IEEE, pp. 765-771.

M. D. Beirão, A. C. Maria do Rosário, J. A. Pombo, and S. J. Mariano, "Balancing management system for improving Li-ion batteries capacity usage and lifespan," in 2016 IEEE 16th International Conference on Environment and Electrical Engineering (EEEIC), 2016: IEEE, pp. 1-6.

Downloads

Published

2021-06-30

How to Cite

Abdul-jabbar, T. A., Obed, A. A., & Abid, A. J. (2021). Design of an Uninterrupted Power Supply with Li-Ion Battery Pack: A Proposal for a Cost-Efficient Design with High Protection Features. Journal of Techniques, 3(2), 1–10. https://doi.org/10.51173/jt.v3i2.296

Issue

Section

Engineering

Similar Articles

<< < 1 2 3 4 5 6 7 8 9 10 > >> 

You may also start an advanced similarity search for this article.