Progress in Computing Applications(PCA)

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Progress in Computing Applications(PCA)

Smart Devices to Monitor Battery Cells based on WiFi Interfaces

Dimiter Badarov, Georgy Mihov, Racho Ivanov
Technical University Ã¢â‚¬â€œ Sofia 8 Kliment Ohridski blvd., 1000 Sofia Bulgaria

Abstract: We in this research have developed a battery voltage monitoring system using a wireless system. To measure the voltage and temperature of cell in battery we have introduced a smart device with Wi-Fi Interface. This smart device control can able to produce a monitoring system and to optimize the battery cycles.

Keywords: Battery Monitoring, Smart Sensor, Data Acquisition, Wi-Fi Interface, Internet of Things Smart Devices to Monitor Battery Cells based on WiFi Interfaces

DOI:https://doi.org/10.6025/pca/2021/10/1/15-21

Full_Text PDF 536 KB Download: 187 times

References:

[1] Abdul-Hak, M., Al-Holou, N. (2009). ITS based Predictive Intelligent Battery Management System for plug-in Hybrid and Electric vehicles, Vehicle Power and Propulsion Conference, 7-10 September, p138-144, 2009. [2] 802.11p-2010 - IEEE Standard for Local and Metropolitan Area Networks - Specific requirements Part 11: Wireless LAN Medium Access Control (MAC) and Physical Layer (PHY) Specifications Amendment 6: Wireless Access in Vehicular Environments. [3] Jiang, O. (2009). Low-Voltage, Reverse-Battery Protection Circuit Using the TPS61200 Boost Converter, Texas Instruments Application Report SLVA315, 2009. [4] Cugnet, M., Dubarry, M., Liaw, B. (2010). Peukert’s Law of a Lead- Acid Battery Simulated by a Mathematical Model, ECS Trans., p 223-233, 2010. [5] Feng, Y., Han, Y., Cao, F., Shen, Z., Chen, W., Wu, J. (2016). Intelligent Battery Management for Electric and Hybrid Electric Vehicles: A Survey, IEEE International Conference on Industrial Technology (ICIT 2016), United States, 14-17 March, p 1436-1441, 2016. [6] Krein, P., Balog, R. (2002). Life Extension Through Charge Equalization of Lead-Acid Batteries, INTELEC, Paper 32.1, 2002.

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