@article{S. Anusha, M. Sirisha, G. Venkata Suvarna_2022, title={Fault-Tolerant Back-to-Back Converter for Direct-Drive Permanent Magnet Synchronous Generators Wind Turbines Using Direct Torque and Power Control Techniques}, url={http://www.thedesignengineering.com/index.php/DE/article/view/8728}, DOI={10.17762/de.vol2022iss1.8728}, abstractNote={<p>Fault-tolerance is considered critical in wind turbines to improve their dependability and availability. This the document has a fault-tolerant permanent magnet with direct drive new direct control synchronous generator PMSM methods capable of handling high-power semiconductors OPEN-CIRCUIT failure in back-to-back transmissions. The faults-tolerance scheme is made up of 5 legs. A converter through an interlinked leg linked to an alternator phase and a converter with a shared leg connected with an alternator phase, a converter through a Triode for Alternating Current to its appropriate grid phase. The creation of DTC and DPC techniques for MSC and GSC is the major contribution of this work. A dependable failure diagnostics algorithm is also implemented, which provides the information needed to instantly activate fault-tolerant remedial techniques without the use of extra sensors. To validate the efficacy of the proposed fault-tolerant PERMANENT MAGNET SYNCHRONOUS GENERATORS drive, simulation and experimental data are provided.</p&gt;}, number={1}, journal={Design Engineering}, author={S. Anusha, M. Sirisha, G. Venkata Suvarna}, year={2022}, month={Jan.}, pages={126 - 142} }