A Hybrid DC–DC Quadrupler Boost Converter for Photovoltaic Panels Integration into a DC Distribution System

Abstract: This paper presents a non-isolated DC–DC boost topology with a high-voltage-gain ratio for renewable energy applications. The presented converter is suitable for converting the voltage from low-voltage sources, such as photovoltaic panels, to higher voltage levels. The proposed converter consists of a multiphase boost stage with an interleaving switching technique and a voltage multiplier cell to provide a voltage level at a reduced duty cycle. The interleaved boost stage consists of two legs and can be either… Show more

“…Although this decreases ripples of input current and increases power level significantly, the switch voltage stress is relatively large and the gain is relatively low. The interleaved parallel DC-DC converter with high set-up is characteristic of high gains, low switch voltage stress, small ripples of input current and high power level under the same duty cycle [15][16][17][18][19]. This kind of converter has several issues.…”

Interleaved High Step-Up Current Sharing Converter with Coupled Inductors

“…Although this decreases ripples of input current and increases power level significantly, the switch voltage stress is relatively large and the gain is relatively low. The interleaved parallel DC-DC converter with high set-up is characteristic of high gains, low switch voltage stress, small ripples of input current and high power level under the same duty cycle [15][16][17][18][19]. This kind of converter has several issues.…”

Interleaved High Step-Up Current Sharing Converter with Coupled Inductors

Optimizing efficiency of Vehicle-to-Grid system with intelligent management and ANN-PSO algorithm for battery electric vehicles