Abstract
In this work discuss about hybrid power system generation and its control strategy using Hybrid Boost Converter (HBC) with high boost ratio. The new converter incorporates a bipolar voltage structurer, featuring symmetrical configuration and three switch, high gain capability with wide regulation range, low component stress, small output ripple and flexible extension, which make it suitable for front-end hybrid system and some other renewable energy applications. The operation principal, component stress, and voltage ripple are analyzed in this paper. The proposed HBC system consists of a wind turbine, a battery storage unit, PV cell and a set of loads. The energy management and power regulation system based on wind and PV generation systems. The proposed regulation system also controls the load scheduling operation during unfavorable wind conditions under inadequate energy storage in order to avoid a system blackout. Based on the reference dynamic operating points of the individual subsystems, the local controllers control the wind turbine, and battery storage units. The proposed control system is implemented in MATLAB Simpower software and tested for various wind and load conditions.
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