Elshaer et al., 2021
| Publication | Publication Date | Title |
|---|---|---|
| Elshaer et al. | DC–DC topology for interfacing a wireless power transfer system to an on-board conductive charger for plug-in electric vehicles | |
| Hui et al. | Wireless power transfer: A paradigm shift for the next generation | |
| Li et al. | A 300-kHz 6.6-kW SiC bidirectional LLC onboard charger | |
| Ramezani et al. | Optimized LCC-series compensated resonant network for stationary wireless EV chargers | |
| He et al. | Design of a 1-MHz high-efficiency high-power-density bidirectional GaN-based CLLC converter for electric vehicles | |
| Li et al. | A high-efficiency high-density wide-bandgap device-based bidirectional on-board charger | |
| Hsieh et al. | High-efficiency wireless power transfer system for electric vehicle applications | |
| Guidi et al. | Minimizing converter requirements of inductive power transfer systems with constant voltage load and variable coupling conditions | |
| Zahid et al. | Modeling and control of series–series compensated inductive power transfer system | |
| KR101851995B1 (en) | Resonant converter for wireless charger and method for implementing thereof | |
| Mudiyanselage et al. | A review of DC-DC resonant converter topologies and control techniques for electric vehicle applications | |
| Samanta et al. | Analysis and design of load-independent ZPA operation for P/S, PS/S, P/SP, and PS/SP tank networks in IPT applications | |
| Cota et al. | An approach for selecting compensation capacitances in resonance-based EV wireless power transfer systems with switched capacitors | |
| Yang et al. | Analysis and design of a T/S compensated IPT system for AGV maintaining stable output current versus air gap and load variations | |
| AU2016209738A1 (en) | An apparatus and a method for wireless transmission of power between DC voltage sources | |
| Ishihara et al. | Strategy of topology selection based on quasi-duality between series–series and series–parallel topologies of resonant inductive coupling wireless power transfer systems | |
| Meher et al. | A standard two stage on-board charger with single controlled PWM and minimum switch count | |
| Shi et al. | A wireless power transfer system with inverse coupled current doubler rectifier for high-output current applications | |
| Chen et al. | A parameter tuning method for a double-sided compensated IPT system with constant-voltage output and efficiency optimization | |
| Zhang et al. | An inductive power transfer charging system with a multiband frequency tracking control for misalignment tolerance | |
| Zahid et al. | Design and control of a single-stage large air-gapped transformer isolated battery charger for wide-range output voltage for EV applications | |
| Kalra et al. | An integrated boost active bridge based secondary inductive power transfer converter | |
| Iam et al. | Optimal bivariate control strategy of multistage constant current charging for IPT-based wireless electric vehicle charging | |
| Lu et al. | Power battery charger for electric vehicles | |
| Matsumoto et al. | Switched compensator for contactless power transfer systems |