A single‐switch high‐gain DC–DC converter for photovoltaic applications

This article presents a high‐gain DC–DC converter consisting of a quadratic boost converter and a voltage multiplier, which helps to lift up the voltage gain. The gain will be further enhanced by increasing the turn's ratio of the coupled inductor. The key features include ultrahigh gain, low voltage stress across switching devices, low input current ripple, and hence, it is preferably suitable for renewable energy applications. A passive clamp lowers the voltage stress across MOSFET, so allowing switch with lower Rds(on) reduces the system cost. Besides this, input inductor makes current continuous and reduces input current ripple. The reverse recovery problem of diodes also gets diminished with the usage of leakage energy of the coupled inductor. The operating principle with different modes of operation is also explained. Zero current switching (ZCS) turn‐on is achieved for power switch, and ZCS turn‐off is achieved for diodes, which helps to reduce the switching losses. This improves the overall system efficiency. A 250‐W prototype is built up to validate the converter. This article presents a high‐gain DC–DC converter consisting of a quadratic boost converter and a voltage multiplier, which helps to lift up the voltage gain. The gain will be further enhanced by increasing the turn's ratio of the coupled inductor. The key features include ultrahigh gain, low voltage stress across switching devices, low input current ripple, and hence, it is preferably suitable for renewable energy applications. A passive clamp lowers the voltage stress across MOSFET, so allowing switch with lower Rds(on) reduces the system cost. Besides this, input inductor makes current continuous and reduces input current ripple. Zero current switching (ZCS) turn‐on is achieved for power switch, and ZCS turn‐off is achieved for diodes, which helps to reduce the switching losses. A 250‐W prototype is built up to validate the converter.