Potential of wireless power transfer for dynamic charging of electric vehicles

Abstract: Wireless Power Transfer (WPT) offers a viable means of charging Electric Vehicles (EV)'s whilst in a dynamic state (DWPT), mitigating issues concerning vehicle range, the size of on-board energy storage and the network distribution of static based charging systems. Such Charge While Driving (CWD) technology has the capability to accelerate EV market penetration through increasing user convenience, reducing EV costs and increasing driving range indefinitely, dependent upon sufficient charging infrastructure. Th… Show more

“…at a maximum power of 150 kW [100]. It is advisable to only charge batteries to 80% of the maximum SoC during fast charging to protect the batteries and to extend their service life [101]. Table 6 are intended to provide an overview of standards regarding conductive charging.…”

Interdisciplinary Analysis of Social Acceptance Regarding Electric Vehicles with a Focus on Charging Infrastructure and Driving Range in Germany

“…at a maximum power of 150 kW [100]. It is advisable to only charge batteries to 80% of the maximum SoC during fast charging to protect the batteries and to extend their service life [101]. Table 6 are intended to provide an overview of standards regarding conductive charging.…”

Interdisciplinary Analysis of Social Acceptance Regarding Electric Vehicles with a Focus on Charging Infrastructure and Driving Range in Germany

“…When considering the residential application, it is expected that an EV will drain around 1.9 kW from a 230 V single‐phase grid for a slow charging between 11 and 36 h, as suggested in [12, 18]. Higher power levels are also found in practical applications.…”

Integrated system for power flow control between electric vehicle, utility grid and residence

“…Various studies have been conducted on DWCS in terms of coil design [5], [6], compensation network [7], [8], modeling and control method [9], [10], and communication techniques [11], [12]. A few existing papers explored grid integration of DWCSs in the view of distribution networks [13]- [17]. Since the charging window of dynamic wireless charging relates to the time period when the vehicle is above the transmitter coil, high-power transfer capability is required for DWCS to guarantee an amount of energy fed to the battery in a limited amount of time.…”

“…Since the charging window of dynamic wireless charging relates to the time period when the vehicle is above the transmitter coil, high-power transfer capability is required for DWCS to guarantee an amount of energy fed to the battery in a limited amount of time. Such a variable vehicle speed-related high-power pulsating load profile may cause considerable stress on the distribution networks [13], [14]. To mitigate the grid impact, a smart grid architecture and renewable energy integration were proposed in [15].…”

Grid Integration and Impact Analysis of High-Power Dynamic Wireless Charging System in Distribution Network