@article{MAKHILLIJSSCEA20147128724,
    title = {A Novel Unified Power Quality Conditioning System for Power Quality Improvement and Bidirectional Power Flow Control for Windmill},
    journal = {International Journal of System Signal Control and Engineering Application},
    volume = {7},
    number = {1},
    pages = {19-25},
    year = {2014},
    issn = {1997-5422},
    doi = {ijssceapp.2014.19.25},
    url = {https://makhillpublications.co/view-article.php?issn=1997-5422&doi=ijssceapp.2014.19.25},
    author = {Gl.,L. and},
    keywords = {Matrix converter,unified power,quality conditioner,current harmonics,voltage sag/swell,windmill,non-linear load,Matlab/Simulink},
    abstract = {This study proposes a new approach of unified power quality 
  conditioner which is made up of a matrix converter to mitigate the current harmonics, 
  voltage sags and swells and control the power flow with bi-directional capability 
  for windmill. Matrix converter injects the compensation voltage on the load-side 
  so it is possible to mitigate the voltage sag/swell problems, resulting in an 
  efficient solution for mitigating voltage and current related power quality 
  problems. Thus, the proposed topology can mitigate the voltage fluctuations 
  and current harmonics without energy storage elements and the total harmonic 
  distortion produced by the system also very low. Due to the bidirectional power 
  flow capability of matrix converter the proposed unified power quality conditioner 
  capable to control the power flow of the windmill more over it also transfer 
  power bi-directional. The Space-Vector Modulation (SVM) is used to control the 
  matrix converter. Matlab/Simulink based simulation results are presented to 
  validate the approach.}
    }