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In this study, a novel hybrid converter topology is shown that can simultaneously supply both DC and AC loads in a single phase. The controlled single switch of the step-up converter can be replaced with a VSI bridge network to create this architecture. This study examines the use of a single step-up (boost) stage architecture to support hybrid loads. This new hybrid converter topology requires fewer switches than the conventional approach. The suggested architecture will improve dependability since it has a built-in feature called shoot through at the VSI stage. The regulated PWM technique is being assessed and modified to acquire the right duty cycle in order to study the behaviour of the BDHC topology. Simulink has been used to construct the integration of a solar panel and a dc battery as a dc input source, and it has been tested to make sure the BDHC architecture is functioning properly. Multiple Simulink models were compared for various duty cycles in order to study the output nature of various sorts of loads.

Keywords

Solar Panel; Pulse Width Modulation (PWM); Shoot-through; Voltage Source Inverter (VSI); Boost Derived Hybrid Converters (BDHC)

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