Wireless Power Transfer
Abstract
It systems allow power to be transferred from one electrical network to another electrical network without need for wires or exposed contacts. There has been rapid expansion of WPT in mobile phone chargers and electric bulb and charging electric vehicles and dynamic charging electric vehicles, also called road powered electric vehicles. It is expected that WPT industry will grow persistently in coming decaded, commonly wireless power transfers are conducted using an inductive coupling and followed by magnetic induction , we use magnetic induction using copper wire with a diameter., The wireless power transfer field would be in high demand for electric power to be supplied in the future.
Downloads
References
Tahsin, N.M., Siddiqui, M.M., Zaman, M.A., & Kayes, M.I. (2012). Wireless charger for low power devices using inductive coupling. Available at: https://www.academia.edu/2329757/Wireless_Charger_for_low_power_devices_using_inductive_coupling.
Melvin D. Saunders. (2019). Wireless electricity of Nikola Tesla. Available at: http://www.mind-course.com/wireless.html.
www.techlopedia.com.
Vikash Choudhary, Satendar Pal Singh, Vikash Kumar, & Deepak Prashar. (2011). Wireless power transmission: An innovative idea. International Journal of Educational Planning & Administration, 1(3), 203-210.
Dombi J. (1982). Basic concepts for a theory of evaluation: The aggregative operator. European Jr. Operation Research, 10, 282-293.
H. Khorashadi-Zadeh & M. Sanaye-Pasand. (2006). Correction of saturated current transformers secondary current using ANNs. IEEE Trans. Power Delivery, 21(1), 73–79.
Sazonov, Edward & Neuman, Michael R. (2014). Wearable sensors: Fundamentals, implementation and applications. Elsevier, 253–255.
Copyright (c) 2020 International Journal of Engineering and Management Research
This work is licensed under a Creative Commons Attribution-NonCommercial-NoDerivatives 4.0 International License.
edior@ijemr.net | 
+91-9696045327
