Publication Type : Conference Proceedings
Publisher : Biennial International Conference on Power and Energy Systems: Towards Sustainable Energy, PESTSE 2016, Institute of Electrical and Electronics Engineers Inc.
Source : 2016 - Biennial International Conference on Power and Energy Systems: Towards Sustainable Energy, PESTSE 2016, Institute of Electrical and Electronics Engineers Inc. (2016)
ISBN : 9781467366595
Keywords : BOOST converter, Complete system, DC-DC converters, Electromagnetic induction, Inductive couplings, Inductive Resonating Principle, Lower frequencies, Mobile phones, Photovoltaic cells, Power efficiency, PV panel, Q factor measurement, Reconfigurable hardware, Solar energy, Transformer Principle
Campus : Bengaluru
School : School of Engineering
Department : Electrical and Electronics
Year : 2016
Abstract : In this paper, wireleb transmibion of electric power using inductive resonating principle is proposed. Power from solar PV is considered as the source of supply. Comparison of the inductive resonance principle and inductive coupling principle of wireleb power transmibion is carried out. It is observed that efficient transmibion of power at lower frequencies can be achieved using resonance principle with high Q factor transceiver coils. The complete system is designed and implemented on the hardware developed. Input to the circuit is 30V, 0.12A from solar PV and a load of 5V,500mA cell phone is charged by the circuit developed. Overall power efficiency of 69.4% is achieved practically for the wireleb power transmibion using the proposed design at a transmibion frequency of 241kHz and at a distance of 8cm. The transmibion efficiency was found to be approximately 100% at the above mentioned frequency and distance.
Cite this Research Publication : T. Rohith, Samhitha, V. S., and Mamatha, I., “Wireless Transmission of Solar Power using Inductive Resonant Principle”, in 2016 - Biennial International Conference on Power and Energy Systems: Towards Sustainable Energy, PESTSE 2016, 2016.