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Dynamic Voltage Restorer (DVR) with Line Energy Supplied Based on Hysteresis Voltage Control for Deep Voltage Sag and Swell


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Abstract


This paper proposes a configuration for the Dynamic Voltage Restorer (DVR) to compensate deep and long duration voltage sags and swells. The proposed configuration is a rectifier fed inverter, through  DC-to-DC boost converter. With this configuration, there is no need for energy storage elements such as batteries which normally occupied large space especially for high power rating DVR and consequently no charging strategies are required. The proposed DVR is based on hysteresis voltage control. The model of the DVR is developed using SIMULINK/MATLAB environment. Time domain simulations of voltage sag and swell have been performed to verify the proposed DVR configuration. In addition, the influence of the hysteresis band and the depth of the voltage sag and swell on the harmonic contents of the load voltage, load current and DVR voltage have been studied.
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Keywords


Dynamic Voltage Restorer (DVR); Hysteresis Voltage Control; DC-to-DC boost Converter; SIMULINK/MATLAB; Voltage-Sourced Converter (VSC); Voltage Sags and Swells

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