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Distributed generation (DG) is revolutionizing contemporary power systems by integrating decentralized power sources into the grid. One critical challenge in DG deployment is ensuring stable voltage levels, given the intermittent nature of renewable energy sources and varying loads. This work examines voltage correction techniques in DG systems, focusing on the role of power electronics in maintaining grid stability. Through advanced control algorithms and real-time monitoring, power electronic devices such as inverters enable precise voltage regulation, reactive power compensation, and mitigation of voltage fluctuations. Various strategies for voltage correction, including reactive power injection, voltage regulation, and harmonic filtering, are explored, highlighting their effectiveness in enhancing power quality and system reliability.