Design, Improvement & Analysis of Solar Based Three-Stage Interleaved Boost Converter for BLDC Motor

Solar photovoltaic system commits a fascinating energy resources due to ubiquitous and copiousness of solar energy. In the last decade, the so-called SPV technology is discussed one of the advanced technologies amongst the manifold renewable energy sources. In this proposed work, the idea of PV system, Interleaved Boost Converter (IBC) and Brushless (BLDC) motor is highlighted. For getting better efficiency with diminishing voltage and current ripples IBC are used. IBC predominantly employed for renewable energy origins having an amount of Boost Converter is joined to shunt with phase shift and the same frequency. To accomplish of interleaved converter is to diminish voltage and current ripples, good accomplishment of to power applications and prolongation efficiency. A BLDC motor is deliberated to be eminent performance due to its high reliability, little protection charge and boundless torque (T) and speed (S). To analyze and improve the performance and efficiency in terms of torque and speed using three-stage IBC fed BLDC motor with PID controller has been proposed. The modeling and MATLAB Simulink outcomes are provided to make out the theoretical exploration of PV panel, IBC and BLDC motor.