A dual switches high step‐up DC–DC converter with low voltage stresses across switches

Abstract: A dual switches high step-up DC-DC converter with coupled inductor (CI) and voltage multiplier cell (VMC) is proposed in this paper. The gate pulses of the switches are synchronized with each other. During ON state of the switches, the CIs are charged in parallel through the input power source and during OFF state of the switches, they are discharged to the output in series. The energy of the leakage inductances is recycled by the passive clamp circuit. The passive clamp circuit for one of the metaloxidesemico… Show more

“…Due to increased energy consumption, environmental degradation, and the decline of fossil resources in recent years, the generation of electricity from renewable energy sources such as PV and wind has increased dramatically [1,2]. However, because of uncertain weather conditions, these types of energy sources have low output voltage and non-regulated output power [3,4]. Based on Figure 1, DC-DC converters are used to boost and adjust the output voltage of renewable energy sources [5].…”

A soft switched high step‐up DC‐DC converter based on VMC and coupled inductor for photovoltaic energy applications

“…Due to increased energy consumption, environmental degradation, and the decline of fossil resources in recent years, the generation of electricity from renewable energy sources such as PV and wind has increased dramatically [1,2]. However, because of uncertain weather conditions, these types of energy sources have low output voltage and non-regulated output power [3,4]. Based on Figure 1, DC-DC converters are used to boost and adjust the output voltage of renewable energy sources [5].…”

A soft switched high step‐up DC‐DC converter based on VMC and coupled inductor for photovoltaic energy applications

Hybrid high step-up DC-DC converter based on quadratic and switched capacitor cells with reduced voltage stress across the switches