Modeling and design of a photovoltaic-fed single-ended primary-inductor converter for maximum power point tracking with current mode control

Identificador:  imarina:9332895

Handle: https://hdl.handle.net/20.500.11797/imarina9332895

Autores:  Rais, Y; Mandal, K; Zakriti, A; Khamlichi, A; Al-Numay, M; El Aroudi, A

Resumen:
In this work, the control of a Single-Ended Primary-Inductor Converter (SEPIC) supplied from a photovoltaic energy source and linked at its output to a DC current sink is addressed. The system is used for maximum power point tracking under varying environmental conditions. A strategy based on two loops of control is considered. A peak current mode controller is used for the inner loop, and a Proportional-Integral (PI) controller is used for the outer voltage loop. Then, a comprehensive time-domain and frequency-domain modeling of the inner loop is theoretically addressed and then verified by the switched model of the system implemented in PSIM© software. The obtained results show that the system exhibits accurate tracking of the desired PV voltage while guaranteeing a fast maximum power point tracking under sudden changes in the environmental conditions. The mathematical modeling, design procedures, and the numerical simulations are validated using experimental results obtained from a laboratory prototype.