Design of High-Efficiency and Low-Cost Six-Phase Permanent Magnet Synchronous Generator for Direct-Drive Small-Scale Wind Power Application

The developed method for designing PM synchronous generators for low power direct drive wind turbine is based on the idea that the output mechanical characteristic of the turbine

Kar, “Maximum Efficiency Control of PMSM Drives Considering Harmonic Losses using Gradient Descent Algorithm Based on DC Power Measurement,” IEEE Transactions on Energy

The design and construction of permanent magnet synchronous generator for small horizontal axis wind turbines was carried out and tested successfully.. The power

This paper proposes a noval fuzzy based drive on several aspects of modelling and control of interior permanent magnet (IPM) synchronous generator based grid connected

The simulation of PMSG is carried for different values of mechanical torque and speed for the pre selected values from the simulation and lastly the load voltage, current and power

The main contributions of this thesis are; (i) development of parameter measurement methods to determine the parameter of an IPM synchronous generator, (ii) development

The main emphasis of this paper is to optimize large, low speed direct drive generators using different rated power (6, 8 and 10 MW) for offshore wind turbine

❼ Wind data from the proposed wind site is used along with power coefficient curves of the chosen turbine blades to determine the potential energy yield of the drive train, and