A Coupled Inductor Based High Boost Inverter with Sub-unity Turns-Ratio Range

Abstract

Voltage source inverter cannot provide an output voltage higher than its input and needs a dead-time scheme for its switches to prevent dc-link short circuit due to spurious turn-on of switches by electromagnetic interference (EMI). Impedance source inverters have eliminated these disadvantages by providing boost functionality with improved EMI immunity. Coupled inductor-based impedance source inverters provided increased gain at the expense of increased coupled inductor turns-ratio. In this paper, a coupled inductor based high gain inverter is proposed, which achieves higher gain by increasing the coupled inductor turns-ratio $(n = n_{2}/n_{1})$ within a very narrow turns-ratio range of $0 \leq n , which is a major improvement over the other coupled inductor based high boost impedance source inverters. The proposed inverter, named Improved Trans–Current–Fed Switched Inverter, is described along with its equivalent operating states and relation between its input and output variables are derived. The steady-state inverter waveforms are shown using PSpice simulations. The operation of the inverter is validated by the experimental results, which show strong correlation with the theoretical analysis. A 110-V RMS ac output is obtained from 26-V dc input using a coupled inductor with turns-ratio of 0.33 to demonstrate its high-boost operation.