Interleaved High Step-Up Converter With Coupled Inductors

Abstract

This paper proposes a new interleaved high step-up converter with coupled inductors. Interleaving configuration is employed at the input side to reduce the input current ripple and increase the power level. The series structure at the output side helps achieve a very high step-up voltage gain. Also, the proposed converter has very low switch voltage stress; thus, switching loss can be reduced and low-voltage-rating mosfet s with small on resistance are allowed to lower the conduction loss. Due to the passive clamp performance, the leakage energy of the coupled inductors can be recycled and large voltage spikes across the switches are alleviated. Furthermore, with the aid of the leakage inductances, zero-current switching of the active switches can be achieved and the reverse recovery problem of the diodes is alleviated. The operating principles, performance analysis, and design considerations of the proposed converter are discussed. A prototype with 20-V input and 400-V output is built, and experimental results are provided to verify the theoretical analysis.