A Review on Single -Phase Shunt Active Power Filter using Parabolic PWM for Current Control
Keywords:
Single phase grid, pulse width modulation,, active filterAbstract
In this paper, a single-phase active power filter with non-linear load is connected to a single-phase grid. The single-phase
active control filter mitigates the harmonics of the non-linear load connected at PCC load. In order to prevent injection into the source of harmful influence, the harmonics produced by the non-linear load are directed to an active direction. The present study presents a new one-stop active control filter which can be attached to half a bridge with condensers. The two electronic power devices of the active power filter are operated by parabolic PWM with the source voltage input and load current for controlling the harmonics in the source current. The parabolic PWM is equivalent to the hysteresis controller, with the use of the hysteresis controller eliminating the source current harmonics is studied in the present review.
References
Anjana, S., and P. Maya. 2016. “Fuzzy Logic Control of Shunt Active Power Filter for Power Quality Improvement.” Advances in Intelligent Systems and Computing 397(1): 975–85.
Barathi, K., K. Prabu, Amrutha Koonath, and P. Chandrasekar. 2015. “A Simple Control Scheme for Three Phase Shunt Active Power Filter with Fuzzy Logic Based DC Bus Voltage Controller.” International Journal of Applied Engineering Research 10(55): 3248–53.
Bhonsle, D. C., and R. B. Kelkar. 2011. “Design and Simulation of Single Phase Shunt Active Power Filter Using MATLAB.” 2011 International Conference on Recent Advancements in Electrical, Electronics and Control Engineering, IConRAEeCE’11 - Proceedings (January): 237–41.
Hamzah, Ngah Ramzi, and Mustafar Kamal Hamzah. 2009. “Single-Phase Shunt Active Power Filter Using Single-Switch Incorporating Boost Circuit.” (January).
Kanagavel, Rameshkumar, Indragandhi Vairavasundaram, and Sanjeevikumar Padmanaban. 2020. “Design and Prototyping of Single-Phase Shunt Active Power Filter for Harmonics Elimination Using Model Predictive Current Control.” International Transactions on Electrical Energy Systems 30(2): 1–21.
Magdum, Pravin S., and Uday T. Patil. 2017. “Development of Single Phase Shunt Active Power Filter.” Proceedings of the International Conference on Inventive Communication and Computational Technologies, ICICCT 2017 (Icicct): 351–55.
Qutaina, Wafa I S, and Master Thesis. 2019. “Modeling and C Ontrol of Shunt Active Power Filter in Medium Voltage Applications.”
Ray, Pravat Kumar. 2018. “Power Quality Improvement Using VLLMS Based Adaptive Shunt Active Filter.” CPSS Transactions on Power Electronics and Applications 3(2): 154–62.
Samikannu, Ravi, R Rohini, V Sampath Kumar, and Vitaliy Mezhuyev. 2018. “Design and Development of Shunt Active Filter Using MATLAB for Minimization of Harmonics.” 7: 179–83.
Saswat, Swayam. 2014. “Study of Single Phase Shunt Active Power Filter By : Study of Single Phase Shunt Active Power Filter.” (110).
Soomro, D M, M A Omran, and S K Alswed. 2015. “DESIGN OF A SHUNT ACTIVE POWER FILTER TO MITIGATE THE HARMONICS CAUSED BY
NONLINEAR LOADS.” 10(19): 8774–82.
Yusof, Yushaizad et al. 2019. “International Journal of Advanced Trends in Computer Science and Engineering Available Online at Http://Www.Warse.Org/IJATCSE/Static/Pdf/File/Ijatcse5981.62019.Pdf Single-Phase Shunt Active Power Filter by Using Piecewise Linear Look-up Table Controller.” d.
Yusoh, Mohd Abdul Talib Bin Mat. 2013. “Development of a Single Phase Active Power Filter for Rectifier Load.” (January): 5–13.
Zhang, Shi, Daheng Li, and Xu Wang. 2010. “Control Techniques for Active Power Filters.” Proceedings - International Conference on Electrical and Control Engineering, ICECE 2010 850: 3493–98
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