Authors :
Dr. Amudha. G.; Srinivasulu; Sooriya Narayanan A. J.; Nishanth M.
Volume/Issue :
Volume 9 - 2024, Issue 4 - April
Google Scholar :
https://tinyurl.com/y4jdajc5
Scribd :
https://tinyurl.com/4ewsc74z
DOI :
https://doi.org/10.38124/ijisrt/IJISRT24APR1199
Note : A published paper may take 4-5 working days from the publication date to appear in PlumX Metrics, Semantic Scholar, and ResearchGate.
Abstract :
This paper presents a comprehensive review
of wireless electric vehicle (EV) charging technologies,
focusing on the advancements, challenges, and prospects
in this domain. With the increasing adoption of electric
vehicles globally, the demand for efficient and
convenient charging solutions has grown significantly.
Wireless charging offers promising opportunities to
enhance the user experience by eliminating the need for
physical connections between the charger and the
vehicle. This review discusses the underlying principles
of various wireless charging technologies, including
inductive charging, resonant charging, and capacitive
charging. Furthermore, it examines the key components
and system architectures involved in wireless EV
charging systems. The paper also addresses the technical
challenges such as efficiency, alignment, safety, and
interoperability that must be overcome to realize the
widespread deployment of wireless charging
infrastructure. Additionally, the regulatory and
standardization efforts governing wireless EV charging
are discussed, along with their implications for market
adoption. Finally, the review provides insights into
future research directions and potential applications of
wireless EV charging technology, including dynamic
charging systems and integration with smart grid
networks. Overall, this paper serves as a valuable
resource for researchers, engineers, and policymakers
interested in understanding the current state and future
prospects of wireless electric vehicle charging.
Keywords :
Wireless Electric Vehicle Charging, Inductive Charging, Resonant Charging, Capacitive Charging, System Architectures, Efficiency, Alignment, Safety, Interoperability, Regulatory Standards, Standardization, Smart Grid Integration, Dynamic Charging Systems, Future Prospects, Electric Vehicle Adoption.
This paper presents a comprehensive review
of wireless electric vehicle (EV) charging technologies,
focusing on the advancements, challenges, and prospects
in this domain. With the increasing adoption of electric
vehicles globally, the demand for efficient and
convenient charging solutions has grown significantly.
Wireless charging offers promising opportunities to
enhance the user experience by eliminating the need for
physical connections between the charger and the
vehicle. This review discusses the underlying principles
of various wireless charging technologies, including
inductive charging, resonant charging, and capacitive
charging. Furthermore, it examines the key components
and system architectures involved in wireless EV
charging systems. The paper also addresses the technical
challenges such as efficiency, alignment, safety, and
interoperability that must be overcome to realize the
widespread deployment of wireless charging
infrastructure. Additionally, the regulatory and
standardization efforts governing wireless EV charging
are discussed, along with their implications for market
adoption. Finally, the review provides insights into
future research directions and potential applications of
wireless EV charging technology, including dynamic
charging systems and integration with smart grid
networks. Overall, this paper serves as a valuable
resource for researchers, engineers, and policymakers
interested in understanding the current state and future
prospects of wireless electric vehicle charging.
Keywords :
Wireless Electric Vehicle Charging, Inductive Charging, Resonant Charging, Capacitive Charging, System Architectures, Efficiency, Alignment, Safety, Interoperability, Regulatory Standards, Standardization, Smart Grid Integration, Dynamic Charging Systems, Future Prospects, Electric Vehicle Adoption.
