A comprehensive review of the recent development of wireless power transfer technologies for electric vehicle charging systems
The expanding Electric vehicle (EV) market is fueled by the need for more efficient and
dependable ways to recharge the battery. By eradicating the necessity for direct physical …
dependable ways to recharge the battery. By eradicating the necessity for direct physical …
Reconfigurable rectifier-based detuned series-series compensated IPT system for anti-misalignment and efficiency improvement
For an inductive power transfer (IPT) system, mobility is one of the most attractive features,
but coupling variations can dramatically affect the system's output. In this article, a …
but coupling variations can dramatically affect the system's output. In this article, a …
A clamp circuit-based inductive power transfer system with reconfigurable rectifier tolerating extensive coupling variations
Coupling variation tolerance is one of the most crucial abilities of the inductive power
transfer (IPT) system because the variable coupling can dramatically degrade the output …
transfer (IPT) system because the variable coupling can dramatically degrade the output …
An antioffset electric vehicle wireless charging system based on dual coupled antiparallel coils
Y Wu, C Liu, M Zhou, X Mao… - IEEE Transactions on …, 2023 - ieeexplore.ieee.org
Wireless power transfer (WPT) has the advantages of safety, convenience, and freedom
from the impact of the environment. Misalignment tolerance is a major issue for the electric …
from the impact of the environment. Misalignment tolerance is a major issue for the electric …
Misalignment-tolerant dual-transmitter electric vehicle wireless charging system with reconfigurable topologies
Y Zhang, W Pan, H Wang, Z Shen, Y Wu… - … on Power Electronics, 2022 - ieeexplore.ieee.org
Wirelesscharging for electric vehicles (EVs) enjoys many benefits, such as convenience,
safety, and automation. One of the major issues concerning EV wireless charging is …
safety, and automation. One of the major issues concerning EV wireless charging is …
A Misalignment Tolerant Design for a Dual-Coupled LCC-S-Compensated WPT System With Load-Independent CC Output
Z Yuan, M Saeedifard, C Cai, Q Yang… - … on Power Electronics, 2022 - ieeexplore.ieee.org
In this article, an optimized design for a dual-coupled inductor–capacitor–capacitor-series
(LCC-S)-compensated wireless power transfer (WPT) system with zero-phase angle (ZPA) …
(LCC-S)-compensated wireless power transfer (WPT) system with zero-phase angle (ZPA) …
Analysis and design of high-misalignment-tolerant compensation topologies with constant-current or constant-voltage output for IPT systems
The capability of misalignment tolerance is vital for an inductive power transfer system. The
conditions satisfied by the high-misalignment-tolerant compensation topology are proposed …
conditions satisfied by the high-misalignment-tolerant compensation topology are proposed …
A family of hybrid IPT couplers with high tolerance to pad misalignment
The transfer performance of inductive power transfer (IPT) systems is greatly affected by the
inevitable magnetic pad misalignment. Practical IPT converters are expected to operate …
inevitable magnetic pad misalignment. Practical IPT converters are expected to operate …
A hybrid wireless power transfer system with constant and enhanced current output against load variation and coupling misalignment
Inductive power transfer and capacitive power transfer (CPT) are two of the most commonly
used near-field wireless power transfer technologies, and these two systems share …
used near-field wireless power transfer technologies, and these two systems share …
Dual-side phase-shift control of wireless power transfer implemented on primary side based on driving windings
The isolated feature between primary and secondary sides in wireless power transfer
requires dual-side communication, phase synchronization, and two controllers on both …
requires dual-side communication, phase synchronization, and two controllers on both …