E-bikes are fetching immense admiration in current market, because of miniature size, simplicity of charging at home and cost-effectiveness substitute in the segment of electric vehicles (EV). For charging the batteries of e-bikes, an ameliorate converter is suggested and is presented in this paper. Proposed converter has two stages. Each stage has a separate boost converter for achieving near UPF, low THD and low ripple in output voltage. First stage boost converter is to provide continuous power to e-bike battery and thereby maintaining near UPF and second stage boost converter is meant for ripple reduction in output voltage. To meet this standard criterion, only a minimal capacitance is required. First stage boost converter steers maximum amount of power through e-bike battery, whereas the second stage boost converter just steers a fraction of power through e-bike battery. In comparison to conventional converters, this proposed parallel architecture of boost converters ensures higher efficiency. A lithium-ion battery pack with 4500 mAh capacity, 100V fully charged voltage of battery pack, 86.12V nominal voltage of battery pack and 66V cut-off voltage of battery pack is utilized.


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    Title :

    AC-DC PFC-Boost Converter with Ripple Reduction Technique For E-Bike Battery Charging System




    Publication date :

    2022-08-04


    Size :

    675650 byte




    Type of media :

    Conference paper


    Type of material :

    Electronic Resource


    Language :

    English



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