Luo et al., 2020
ViewPDF| Publication | Publication Date | Title |
|---|---|---|
| Luo et al. | Analysis and design of hybrid inductive and capacitive wireless power transfer for high‐power applications | |
| Regensburger et al. | High-performance 13.56-MHz large air-gap capacitive wireless power transfer system for electric vehicle charging | |
| Luo et al. | LC–CLC compensation topology for capacitive power transfer system to improve misalignment performance | |
| Mai et al. | Double‐sided CL compensation topology based component voltage stress optimisation method for capacitive power transfer charging system | |
| Zhang et al. | Modelling and analysis of the distortion of strongly‐coupled wireless power transfer systems with SS and LCC–LCC compensations | |
| Yao et al. | LC/CL compensation topology and efficiency‐based optimisation method for wireless power transfer | |
| Wu et al. | A sleeve-type capacitive power transfer system with different coupling arrangements for rotary application | |
| Luo et al. | Misalignment tolerance wireless power transfer system combining inductive and capacitive coupling | |
| Sinha et al. | A very-high-power-transfer-density GaN-based capacitive wireless power transfer system | |
| Qu et al. | Design for continuous‐current‐mode operation of inductive‐power‐transfer converters with load‐independent output | |
| Rasekh et al. | Evaluation study on an integration method for a DDQP using LCC and series compensation topologies for inductive power transfer | |
| Yao et al. | Modified parameter tuning method for LCL/P compensation topology featured with load‐independent and LCT‐unconstrained output current | |
| Chen et al. | New parameter tuning method for LCC/LCC compensated IPT system with constant voltage output based on LC resonance principles | |
| Qi | Analysis, design, and optimisation of an LCC/S compensated WPT system featured with wide operation range | |
| Nie et al. | Field orientation based three‐coil decoupled wireless transmitter for electric vehicle charging with large lateral receiver misalignment tolerance | |
| Xia et al. | WPIT technology based on the fundamental‐harmonic component for a single‐channel and two‐coil ICPT system | |
| Elwalaty et al. | Modeling, Analysis, and Implementation of Series‐Series Compensated Inductive Coupled Power Transfer (ICPT) System for an Electric Vehicle | |
| Cheng et al. | Long‐distance wireless power transfer system powering multiple loads with constant voltage outputs using S‐SP compensation | |
| Yang et al. | Analysis and design of a high‐efficiency three‐coil WPT system with constant current output | |
| Xia et al. | The mechanism and optimization method of the capacitance team used in double‐sided LCC compensation topology | |
| Qiu et al. | A robust parity‐time‐symmetric hybrid wireless power transfer system with extended coupling range | |
| Chen et al. | Hybrid coupler for 6.78 MHz desktop wireless power transfer applications with stable open‐loop gain | |
| Li et al. | Output characteristics of LCC‐S compensation network and its optimal parameters design in IPT system | |
| Liu et al. | A novel bipolar coil structure with high interoperability performance for electric vehicle wireless charging systems | |
| Sakthi et al. | Design of coil parameters for inductive type wireless power transfer system in electric vehicles |