LITHIUM-ION BATTERY FAST CHARGING TECHNIQUE USING FUZZY LOGIC

  • Amar Anshori Department of Electrical Engineering, Faculty of Engineering, Brawijaya University
  • Bambang Siswojo Department of Electrical Engineering, Faculty of Engineering, Brawijaya University
  • Rini Nur Hasanah Department of Electrical Engineering, Faculty of Engineering, Brawijaya University

Abstract

The increasing use of portable electronic equipment uses more and more lithium-ion batteries. Issues that occur from increased use of the battery pose problems such as less capacity, long charging time, and overcharging protection. Some methods of lithium-ion battery charging techniques are commonly used such as Constan Voltage (CV), Constan Current (CC), CC-CV, and reflex charging methods. In this study the fast charging Lithium-ion battery technique uses fuzzy logic to control temperature and voltage during battery charging using the Pulse Width Modulation (PWM) Charging method, the fuzification process used Is Mamdani method with Center Of Gravity (COG) Defuzzification method. It is expected to accelerate the charging without making the battery temperature exceed the maximum limit, as well as the overcharging. The filling results using this fast charger using the fuzzy logic proved to accelerate charging and protect the occurrence of overcharging the battery.

Keywords: Charger, Fast Charging, Lithium-Ion, Logika Fuzzy, Overcharging, PWM

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References

Ahmad Faiz Farizy, Dimas Anton Asfani, dan Soedibjo. (2016). Desain Sistem Monitoring State of Charge Baterai pada Charging Station Mobil Listrik Berbasis Fuzzy Logic Dengan Mempertimbangkan Temperature. JURNAL TEKNIK ITS Vol. 5, No. 2, (2016) ISSN: 2337-3539 (2301-9271 Print).

Budiono. (2003). Implementasi Mikrokontroler ATMEL AT90S8535 Pada Manajemen Energi. Tesis. Tidak dipublikasikan. Institut Teknologi Bandung (ITB).

Bundit Tanboonjit, Nisai H. Fuengwarodsakul. (2014). Implementation of Charger and Battery Management System for Fast Charging Technique of Li-FePO4 Battery in Electric Bicycles. 978-1-4799-3787-5/14/$31.00 ©2014 IEEE.

Chia-Hsiang Lin, Chi-Lin Chen,Yu-Huei Lee,Shih-Jung Wang, Chun-Yu Hsieh,Hong-Wei Huang, and Ke-Horng Chen. (2008). Fast Charging Technique for Li-Ion Battery Charger. 978-1-4244-2182-4/08/$25.00 ©2008 IEEE.

Chun-Liang Liu, Shun-Chung Wang, Yi-Hua Liu, Meng-Chung Tsai. (2012). An Optimum Fast Charging Pattern Search for Li-Ion Batteries Using Particle Swarm Optimization. SCIS-ISIS 2012, Kobe, Japan, November 20-24, 2012.

C.K.Leong, YH Can, C.D Can, Z. Y Phuan, M.K Yoong, B.K Cheah. K. W Chew. (2010). Ultra Fast Charging System On Lithium Ion Battery. Proceedings of the 2010 IEEE Conference on Sustainable Utilization and Development in Engineering and Technology Universiti Tunku Abdul Rahman 20 & 21 November 2010, Faculty of Engineering, Kuala Lumpur, Malaysia.

EEMB Co., Ltd. (2010). Lithium-ion Battery DATA SHEET. LIR18650 Datasheet Li-ion Battery Edition: NOV. 2010.

EEMB Co., Ltd. (2016). Lithium-ion Battery DATA SHEET. LIR18650 Datasheet Li-ion Battery Edition: Aug. 2016.

Houshyar Asadi, S.Hr.Aghay Kaboli, Arash Mohammadi , Maysam Oladazimi. (2011). Fuzzy Logic Control Technique in Li-Ion Battery Charger. International Conference on Electrical, Electronics and Civil Engineering (ICEECE'2011) Pattaya Dec. 2011.

Indar Sugiarto, Lauw Lim Un Tung. (2004). Smart Charger NiCd dan NiMh Dengan Teknik Pengisian Pulsa. Proceedings, Komputer dan Sistem Intelijen (KOMMIT2004) Auditorium Universitas Gunadarma, Jakarta, 24-25 Agustus 2004 ISSN:1411-6286.

Jingyu Yan, Guoqing Xu, Huihuan Qian, Yangsheng Xu. (2010). Battery Fast Charging Strategy Based on Model Predictive Control. 978-1-4244-3574-6/10/$25.00 ©2010 IEEE.

J. Lopez, M. Godlez, J. C. Viera, C. Blanco. (2004). Fast-Charge in Lithium-Ion Batteries for Portable Applications. 0-7803-8458-X/04/$20.00 ©2004 IEEE.

M. Gonzalez, M.A. Perez, J.C. Campo, F.J. Ferrero. (1998). Accurate Detection Algorithm of Battery Full-Capacity Under Fast-Charge. 0-7803-4797-8/98/$10.00 1998 IEEE.

R.J. Wai, S.J. Jhung. (2012). Design of energy-saving adaptive fast-charging control strategy for Li-FePO4battery module. IET Power Electron., 2012, Vol. 5, Iss. 9, pp. 1684–1693.

Ruei-Hong Peng, Tsu-Wei Tsai, Ke-Horng Chen, Zhih Han Tai, Yi Hsuan Cheng, Chi Chung Tsai, Hsin-Yu Luo, Shih-Ming Wang, Long-Der Chen, Cheng-Chen Yang, and Jui-Lung Chen. 2013. Switching-based Charger with Continuously Built-in Resistor Detector (CBIRD) and Analog Multiplication-division Unit (AMDU) for Fast Charging in Li-ion Battery. 978-1-4799-0645-1/13/$31.00 ©2013 IEEE.

Technical Handbook. Lithium Ion Rechargeable Batteries.

Yu-Chun Huang, Wei-Song Lin. (2011). Charge Shuttling with Ultracapacitors for Fast Equalization of Power Lithium-ion Battery. 978-1-4577-2119-9/12/$26.00©2011 IEEE.

Yong-Duk Lee and Sung-Yeul Park. (2013). Rapid Charging Strategy in the Constant Voltage Mode for a High Power Li-Ion Battery. 978-1-4799-0336-8/13/$31.00 ©2013 IEEE

Published
2020-04-28
How to Cite
[1]
A. Anshori, B. Siswojo, and R. Hasanah, “LITHIUM-ION BATTERY FAST CHARGING TECHNIQUE USING FUZZY LOGIC”, Jurnal Ecotipe, vol. 7, no. 1, pp. 26-37, Apr. 2020.
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