Analysis and Design of a High-Efficiency SiC MOSFET 6-Phase Boost Rectifier

Abstract: In this paper, the analysis and the design of a high-efficiency power electronic conversion system for offshore wind applications are presented. This system is composed of a 6-phase AC–DC converter based on the SiC power semiconductors, to be used to control the achievable power from the wind turbine electrical generator. Thanks to the phase redundancy, the proposed boost rectifier is suitable for applications where reliability and fault tolerance capability are the main targets. To select the appropriate powe… Show more

“…A classic solution in this conversion system is with boost rectifier topologies that need an output voltage higher than the input voltage for proper operation [24,25]. However, generator voltage depends on wind speed, which can be a limiter [26]. Moreover, a current control system must be implemented in each rectifier phase to achieve a high power factor, increasing the cost and complexity through voltage and current sensors.…”

A Three-Phase Phase-Modular Single-Ended Primary-Inductance Converter Rectifier Operating in Discontinuous Conduction Mode for Small-Scale Wind Turbine Applications

“…A classic solution in this conversion system is with boost rectifier topologies that need an output voltage higher than the input voltage for proper operation [24,25]. However, generator voltage depends on wind speed, which can be a limiter [26]. Moreover, a current control system must be implemented in each rectifier phase to achieve a high power factor, increasing the cost and complexity through voltage and current sensors.…”

A Three-Phase Phase-Modular Single-Ended Primary-Inductance Converter Rectifier Operating in Discontinuous Conduction Mode for Small-Scale Wind Turbine Applications

Digital Twin based Real-Time Analysis of DC-DC Boost Converters

Parameters Estimation of a 3-Phase AC-DC Converter based on the Digital Twin Method