A new three-level flying-capacitor boost converter with an integrated lc²d output network for fuel-cell vehicles: Analysis and design

Authors

Nour Elsayad, Florida International University
Hadi Moradisizkoohi, Florida International University
Osama Mohammed, Florida International University

Date of this Version

9-1-2018

Document Type

Article

Abstract

In this paper, a new three-level boost converter with continuous input current, common ground, reduced voltage stress on the power switches, and wide voltage gain range is proposed. The proposed converter is composed of a three-level flying-capacitor switching cell and an integrated LC2D output network. The LC2D output network enhances the voltage gain of the converter and reduces the voltage stress on the power switches. The proposed converter is a good candidate to interface fuel cells to the dc-link bus of the three-phase inverter of an electric vehicle (EV). A full steady-state analysis of the proposed converter in the continuous conduction mode (CCM) is given in this paper. A 1.2 kW scaled-down laboratory setup was built using gallium nitride (GaN) transistors and silicon carbide (SiC) diodes to verify the feasibility of the proposed converter.

Recommended Citation

Elsayad, Nour; Moradisizkoohi, Hadi; and Mohammed, Osama, "A new three-level flying-capacitor boost converter with an integrated lc²d output network for fuel-cell vehicles: Analysis and design" (2018). Electrical and Computer Engineering Faculty Publications. 108.
https://digitalcommons.fiu.edu/ece_fac/108