Analysis and Study on Technique for Wireless Power Transfer depending upon Application Requirements
Keywords:
Mutual Inductance, Wireless power Transfer, Electricity, Power, Tesla, WPT, Efficient power transfer system, Prototype, Cost effective method, Tesla Coil vs Mutual InductanceAbstract
The purpose of our study is to design an efficient method for wireless power transfer (WPT) with high
efficiency and low losses. In it we are working on a prototype based on mutual inductance and Tesla coil
methods to calculate the parameters of wireless power transfer such as [i.e. Transmission efficiency,
Transmission air Losses, Transmission Power losses, Transmission Distance, Impedance Losses]. The Research
of wireless power transfer started in the year 1891 by Nicolas tesla father of wireless power transfer technology
this journey continued till today having a lot of research opportunities and challenges in the field of WPT. We
discuss the challenging issues with respect to various parameters of wireless power transfer like Cost of
transmission.
References
Nikola Tesla, ―The Transmission of Electrical
Energy Without Wires as a Means for Furthering
Peace, Electrical World and Engineer. Jan. 7, p. 21,
Brown.w.c (September 1984) ― the history
power transmission by radio waves‖Microwave
theory and techniques IEEE Transactions on
(Volume: 32, Issue: 9 On page(s): 1230- 1242.
Luke Goodman Alexander Karp, Peter Shorrock
,Thomas Walker ―THE FEASIBILITY OF
WIRELESS ENERGY‖ project report submitted for
partial fulfillment of Bachelor of science degree at
Worcester Polytechnic Institute May 17, 2013.
Paramanand. S. Patil, Satyanarayan. K. Padaganur
- Challenging Issues In Wireless Power Transmission
Methods A Survey | Research paper Submitted in
INTERNATIONAL JOURNAL OF SCIENTIFIC &
TECHNOLOGY RESEARCH VOLUME 7, ISSUE
, AUGUST 2018.
S. Aldhaher, Design and Optimization of
Switched-Mode Circuits for Inductive Links,
Cranfield University, 2014.
A. B. Islam, Design of Wireless Power Transfer
and Data Telemetry System for Biomedical
Applications, The University of Tennessee,
Knoxville, 2011.
Design of a Wireless Power Transfer System
using Inductive Coupling and MATLAB
Programming, International Journal on Recent and
Innovation Trends in Computing and Communication
ISSN: 2321-8169 Volume: 3 Issue: 6 3817 - 3825,
D. M. Kesler, Highly Resonant Wireless Power
Transfer:Safe, Efficient, and over Distance,
WiTricity Corporation, 2013.
S. Senjuti, Design and Optimization of efficient
WPT for Implantable Biotelemetry Systems, The
University of Western Ontario, 2013.
S. Han, Wireless Power Transfer Using
Resonant Inductive Coupling for 3D Integrated ICs,
Ann Arbor.
