4 research outputs found
Recommended from our members
Harmonic current extraction of shunt active power filter based on prediction current technique - Hysteresis PWM
Due to the wide spread of power electronics equipment in modern electrical systems, the increase of the
harmonics disturbance in the ac mains currents has became a major concern due to the adverse effects on all
analysis and simulation using MATLAB-SIMULINK of a three-phase shunt active equipment. This paper presents the Shunt Active Power Filter (SAPF) to compensate the generated harmonics by 3-phase Rectifier Bridge fed R-L load. The harmonic current extraction is based on prediction current extraction technique -hysteresis PWM generation pattern
Recommended from our members
Hysteresis PWM of shunt active power filter based on prediction harmonic current technique
This article is available (Open Access) to view at: http://www.globalcis.org/dl/citation.html?id=JNIT-321The growth in electronic devices applications increases the non linear loads in power systems. These loads produce undesired harmonics which causes many problems. This paper presents the Shunt Active Power Filter (SAPF) to compensate the generated harmonics by 3-phase Rectifier Bridge fed R-L load. The harmonic current extraction is based on prediction current extraction technique -Hysteresis PWM generation pattern
Recommended from our members
Comparison between hysteresis and space vector PWM of shunt active power filter based on prediction harmonic current extraction
This article is available (Open Access) to view at: http://www.globalcis.org/dl/citation.html?id=JNIT-320Harmonic distortion is the most power quality problem. The harmonic problems in the power supply are caused by non-linear loads. Many researches have been done to mitigate harmonics. This paper presents a shunt active power filter with prediction harmonic current extraction technique using Hysteresis Pulse Width Modulation (HPWM) and Space vector Pulse Width Modulation(SVPWM) for power conditioning in distribution systems