Modelling and Control of an Interleaved-Boost Full-Bridge Three-Port Converter

Abstract

            Design, modelling and control of a three port isolated DC-DC converter based on pulse width modulation and phase shift control. In this topology, we use phase shifted PWM signals to drive the switches, where both phase angle and duty cycle are controlled variable. Duty cycle controls the power stream between two data sources, though stage move is in charge of managing yield voltage adequately. MOSFETs at the primary side don’t need additional switching circuitry to attain Zero Voltage switching (ZVS) operation.  Moreover, because of the output inductor (ac), the diodes at the secondary side can operate under Zero Current Switching conditions. We utilize Photovoltaic vitality and wind vitality for its simple access and accessibility and it is non-dirtying. In this task, the activity, structure and basic displaying of the converter is done and examined. Besides, the inferred scientific models are approved by recreation and estimations. So as to confirm the legitimacy of the hypothetical investigation, plan and power decoupling control plot, a model is built and tried under the different modes, contingent upon the accessibility of the sustainable power source and the heap utilization. The exploratory outcomes demonstrate that the two decoupled control factors accomplish compelling guideline of the power stream between the three ports.