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Low price type inspection and monitoring system of lithium ion batteries for hybrid vessels
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 Title & Authors
Low price type inspection and monitoring system of lithium ion batteries for hybrid vessels
Kwon, Hyuk-joo; Kim, Min-kwon; Lee, Sung-geun;
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Batteries are used for main power engine in the fields such as mobiles, electric vehicles and unmanned submarines, for starter and lamp driver in general automotive, for emergency electric source in ship. These days, lead-acid and the lithium ion batteries are increasingly used in the fields of the secondary battery, and the lead-acid battery has a low price and safety comparatively, The lithium ion battery has a high energy density, excellent output characteristics and long life, whereas it has the risk of explosion by reacting with moisture in the air. But Recently, due to the development of waterproof, fireproof, dustproof technology, lithium batteries are widely used, particularly, because their usages are getting wider enough to be used as a power source for hybrid ship and electric propulsion ship, it is necessary to manage more strictly. Hybrid ship has power supply units connected to the packets to produce more than 500kWh large power source, and therefore, A number of the communication modules and wires need to implement the wire inspection and monitor system(WIIMS) that allows monitoring server to transmit detecting voltage, current and temperature data, which is required for the management of the batteries. This paper implements a low price type wireless inspection and monitoring system(WILIMS) of the lithium ion battery for hybrid vessels using BLE wireless communication modules and power line modem( PLM), which have the advantages of low price, no electric lines compared to serial communication inspection systems(SCIS). There are state of charge(SOC), state of health(SOH) in inspection parts of batteries, and proposed system will be able to prevent safety accidents because it allows us to predict life time and make a preventive maintenance by checking them at regular intervals.
Lithium ion battery;Bluetooth low energy;Inspection and monitoring system;State of charge;State of health;
 Cited by
하이브리드 선박 직류전원용 고 안전 BMS,최정렬;이성근;

한국마린엔지니어링학회지, 2016. vol.40. 7, pp.635-641 crossref(new window)
부스트 컨버터의 전류 피크 값에 따른 배터리 수명특성 분석,최정렬;박경도;김윤식;이성근;

한국마린엔지니어링학회지, 2017. vol.41. 7, pp.665-669 crossref(new window)
High safety battery management system of DC power source for hybrid vessel, Journal of the Korean Society of Marine Engineering, 2016, 40, 7, 635  crossref(new windwow)
H. J. Kwon, A Study of Remote Management System of Lithium Ion Battery for Ship based on BLE, M.S. Dissertation, Electrical and electronics engineering, Korea Maritime and Ocean University, Korea, 2015. (in Korean)

Go directly to the battery, hybrid ship,, Accessed December 6, 2015 (in Korean).

Research center of Meritz, Reignition of Growth Engine with Midium and Large Scale 2nd Battery ESS, 2011 (in Korean).

J. H Park, W. C. Cha, U. R. Cho, and J. C. Kim, "State of charge estimation of Li-Ion battery based on CIM and OCV using Extended Kalman Filter," Journal of the Korean Institute of Illuminating and Electrical Installation Engineers, vol. 28, no. 11, pp. 77-83, 2014 (in Korean). crossref(new window)

Y. M. Jung, An Enhanced OCV Reset Algorithm to Improve the Coulomb Counting Method of Li-Polymer Battery for xEVs, M. S. Dissertation, Department of Electrical and computer Engineering, Sungkyungwan university, 2014 (in Korean).

J. H. Kim, A Study on the Screening and Battery Packet Modelling Technique for Effective Battery Management System, Ph. D. Dissertation, Department Electrical and computer engineering, Seoul National University, 2012 (in Korean).

D. Y Noh, A Study on the SOH Estimation Method of Lithium Ion Batteries using OCV, M. S. dissertation, Department of Electrical Engineering Korea University , 2011 (in Korean).

D. Y. Noh, I. S. Hwang, and J. Y. Yoo, "SOH estimation method of lithium polymer batteries using OCV," 2010 Power electronics annual conference, vol. 2010, no. 7, pp. 269-270, 2010 (in Korean).