The demand for electrically powered transportation is increasing exponentially due to high fuel prices and global environmental issues. The use of electric bikes is increasing rapidly within urban mobility. The current E-bike chargers are expensive and fail to provide proper authentication, real-time monitoring, parameter analysis, health maintenance alerts, etc. To meet future demand, the paper presents detailed design procedures and experimental analysis of smart, user-friendly, economical, and green charging solutions for electric bikes. The research provides an IoT-based cheap charging facility for different workplaces, organizations, and highway rest areas. Real-time pricing and parameters are sensed using an IoT module and observed online with a monitoring interface via the ThingSpeak platform. The parameters are visualized using both simulation and hardware analysis. The detailed power converter and high-frequency transformer design procedure with mathematical equations are presented in the article. The proposed design improves reliability, security, timely maintenance, and system health conditions. The research provides economical off-board charging stations with smart interfaces that can be accessed by users or service providers through the data cloud. The low-cost smart charging stations promote the use of electric vehicles and decrease the charging anxiety of users. The proposed scheme reduces emissions problems, improves the air quality index, and facilitates people with affordable and reliable transportation.


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    Title :

    Comprehensive Design Analysis of Economical E-Bike Charger with IoT-Empowered System for Real-Time Parameter Monitoring


    Contributors:


    Publication date :

    2024




    Type of media :

    Article (Journal)


    Type of material :

    Electronic Resource


    Language :

    Unknown




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