A novel phase-shift control of semibridgeless active rectifier for wireless power transfer
A novel phase-shift control of a semibridgeless active rectifier (S-BAR) is investigated in
order to utilize the S-BAR in wireless energy transfer applications. The standard receiver …
order to utilize the S-BAR in wireless energy transfer applications. The standard receiver …
Overview and comparative assessment of single-phase power converter topologies of inductive wireless charging systems
The acquisition of inductive power transfer (IPT) technology in commercial electric vehicles
(EVs) alleviates the inherent burdens of high cost, limited driving range, and long charging …
(EVs) alleviates the inherent burdens of high cost, limited driving range, and long charging …
The load estimation and power tracking integrated control strategy for dual-sides controlled LCC compensated wireless charging system
Q Zhao, A Wang, J Liu, X Wang - IEEE Access, 2019 - ieeexplore.ieee.org
In this paper, the wireless power transfer (WPT) system with dynamic loads such as batteries
is studied comprehensively. An integrated control technology of load estimation and power …
is studied comprehensively. An integrated control technology of load estimation and power …
A 25 kW industrial prototype wireless electric vehicle charger
A 25 kW wireless charger design for electric vehicles is presented in this paper. The wireless
charger consist of three phase power factor corrector (PFC), three phase resonant inverter …
charger consist of three phase power factor corrector (PFC), three phase resonant inverter …
Synchronization strategy based on resonant current detection for bidirectional wireless charging system
Bidirectional wireless power transfer greatly improves the reliability of power supply.
However, wireless communication between the primary and pickup controllers is usually …
However, wireless communication between the primary and pickup controllers is usually …
Overshoot damping and dynamics improvement in wireless power transfer systems via receiver-side controller design
Buck converters have been extensively used for output regulation in the receiver of series–
series compensated wireless power transfer (WPT) systems. Nonetheless, there are two …
series compensated wireless power transfer (WPT) systems. Nonetheless, there are two …
An improved pulse density modulation strategy based on harmonics for ICPT system
X Sheng, L Shi - IEEE Transactions on Power Electronics, 2019 - ieeexplore.ieee.org
To improve the efficiency of high frequency inverter (HFI) in inductively coupled power
transfer system, pulse density modulation (PDM) is often used. However, the output current …
transfer system, pulse density modulation (PDM) is often used. However, the output current …
Design of power receiving side in wireless charging system for UAV application
A Muharam, TM Mostafa… - … Conference on Sustainable …, 2017 - ieeexplore.ieee.org
This paper proposes a design of power receiving side on capacitive coupling wireless
power transfer for an unmanned aerial vehicle (UAV). In order to minimize a component …
power transfer for an unmanned aerial vehicle (UAV). In order to minimize a component …
Design and validation of a control algorithm for a SAE J2954-compliant wireless charger to guarantee the operational electrical constraints
Wireless power transfer is foreseen as a suitable technology to provide charge without
cables to electric vehicles. This technology is mainly supported by two coupled coils, whose …
cables to electric vehicles. This technology is mainly supported by two coupled coils, whose …
Design for constant output voltage and current controllability of primary side controlled wireless power transfer system
K Song, Z Li, Z Du, G Wei, C Zhu - 2017 IEEE PELS Workshop …, 2017 - ieeexplore.ieee.org
This paper proposes a new wireless power transfer (WPT) control technique, which employs
primary side controller and series-series (SS) or series-parallel (SP) compensation to …
primary side controller and series-series (SS) or series-parallel (SP) compensation to …