@article{1444335,
      author = {Ibrahim, Nagwa F. and Dessouky, Sobhy S. and Mostafa  Attia, Hossam E. and Alaboudy, Ali H. Kasem.},
      url = {http://library.usi.edu/record/1444335},
      title = {Protection of wind turbine generators using  microcontroller-based applications/},
      publisher = {Springer,},
      abstract = {Protection of Wind Turbine Generators Using  Microcontroller-Based Applications focuses on the  application of microcontrollers in the protection of wind  turbine generators. The book looks at the design and  implementation of a versatile digital overcurrent (OC),  OV/UV, OF/UF, and negative sequence relays, and addresses  the dynamic behaviour of a wind-driven induction generator  (IG) connected to a power system grid through a  transmission line. The transient responses of protective  devices associated with the IG are also studied. Modelling  of the digital relay for wind turbine generator protection  using MATLAB Simulink consider most of the aerodynamic and  mechanical effects that can influence instantaneous output  voltage, current, and power. Coverage also includes  different AC fault types, a detailed theoretical analysis  of fault and protection strategy in AC fault, and the  different types of fault detection algorithms to maintain  power system reliability. Presents wind turbine generator  system concepts; Analyzes wind turbine generator  protection; Offers lab validated MATLAB Simulink models  using a small-scale setup.},
      doi = {https://doi.org/10.1007/978-3-030-92628-1},
      recid = {1444335},
      pages = {1 online resource},
      address = {Cham, Switzerland :},
      year = {2022},
}