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Distribution system power quality compensation using a HSeAPF based on SRF and SMC features

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posted on 2023-07-26, 15:30 authored by Akram Qashou, Sufian Yousef, Abdallah A. Smadi, Amani A. AlOmari
The purpose of this paper is to describe the design of a Hybrid Series Active Power Filter (HSeAPF) system to improve the quality of power on three-phase power distribution grids. The system controls are comprise of Pulse Width Modulation (PWM) based on the Synchronous Reference Frame (SRF) theory, and supported by Phase Locked Loop (PLL) for generating the switching pulses to control a Voltage Source Converter (VSC). The DC link voltage is controlled by Non-Linear Sliding Mode Control (SMC) for faster response and to ensure that it is maintained at a constant value. When this voltage is compared with Proportional Integral (PI), then the improvements made can be shown. The function of HSeAPF control is to eliminate voltage fluctuations, voltage swell/sag, and prevent voltage/current harmonics are produced by both non-linear loads and small inverters connected to the distribution network. A digital Phase Locked Loop that generates frequencies and an oscillating phase-locked output signal controls the voltage. The results from the simulation indicate that the HSeAPF can effectively suppress the dynamic and harmonic reactive power compensation system. Also, the distribution network has a low Total Harmonic Distortion (< 5%), demonstrating that the designed system is efficient, which is an essential requirement when it comes to the IEEE-519 and IEC 61,000–3-6 standards.

History

Refereed

  • Yes

Volume

12

Issue number

5

Page range

976-989

Publication title

International Journal of System Assurance Engineering and Management

ISSN

0976-4348

Publisher

Springer

File version

  • Published version

Language

  • eng

Legacy posted date

2021-09-21

Legacy creation date

2021-09-21

Legacy Faculty/School/Department

Faculty of Science & Engineering

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