"Analysis and Implementation of Supply Voltage Sensorless Microcontroller-Based Three Phase Active Power Filter”, ASJEE, Ain Shams Univ, Faculty of Engineering, Egypt, Vol. 2, pp. 305-311, 2009.
ASJEE • 2009
Publication Information
Authors
M. A. Ahmed, S. A. Zaid, O. A. Mahgoub
Keywords
Not Available
Journal
ASJEE
Publisher
Ain Shams Univ, Faculty of Engineering
Volume
2
Issue
Not Available
Pages
305-311
publication.type
Local
Paper Link
Not Available
Supplementary Materials
Not Available
Abstract
A simplified control scheme for supply voltage sensorless three-phase active power filter (APF) is presented. The objective is to eliminate harmonics and to compensate the reactive power of an uncontrolled rectifier taken as a non-linear load. The APF is realized using 3-phase voltage source inverter (VSI) with dc bus capacitor. Reference peak value of the source currents is estimated using P-I control over dc-bus voltage. Current commands of the APF are obtained with reference source currents and load currents. A hysteresis-band current controller is used to generate PWM current commands that derive gating signals to the switching devices. A low cost Intel 80C196KC microcontroller is used to implement this function. The experimental results are presented to prove the near sinusoidal and low harmonic content of the ac-line currents.
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