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dc.contributor.authorKaruppanan, P-
dc.contributor.authorMahapatra, K K-
dc.contributor.authorJeyaraman, K-
dc.contributor.authorViji, J-
dc.identifier.citationInternational Conference on Power and Energy Systems (ICPS), Dec 22 - 24, 2011, IIT-Madrasen
dc.descriptionCopyright belongs to proceeding publisheren
dc.description.abstractThis paper presents a Fryze power theory based three-phase, three-wire Active Power Line Conditioner (APLC) for power quality enhancement. The shunt APLC system is used for harmonics and reactive power compensation due to non-linear loads. The compensation control strategy is proposed on active and non-active power in the time domain based generalized Fryze currents minimization theory. PWM-voltage source inverter based active power filter gate control switching signals are brought out from adaptive-Hysteresis Current Controller (HCC). This Fryze power theory method maintains the capacitance voltage of the inverter constant without any additional controller circuit. The shunt APLC system is investigated using extensive simulation studies and the performance parameters are obtained under different steady state and transient conditions. A comparative assessment of fixed-HCC and adaptive-HCC are carried out.en
dc.format.extent384440 bytes-
dc.subjectFryze power theoryen
dc.subjectactive power line conditioneren
dc.subjectPower qualityen
dc.subjectadaptive-hysteresis current controlleren
dc.titleFryze Power Theory with Adaptive-HCC based Active Power Line Conditionersen
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