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Hybrid Active Switched Inductor DC-DC Converter With Common Ground and Suppressed Voltage Oscillation for Fuel Cell Vehicles

Motiur Reza Mohammed, Ameena Saad Al‐Sumaiti, Abdul R. Beig

2024IEEE Transactions on Transportation Electrification20 citationsDOIOpen Access PDF

Abstract

In the pursuit of greener and more sustainable transportation solutions, fuel cell vehicles (FCVs) have widely emerged. The DC-DC converter regulates the variable output voltage of the fuel cell and acts as a key component of FCVs. Hybrid active switched inductor (HASL) DC-DC converters are widely used for FCVs due to their low voltage/current stress on power devices, wide voltage gain range, simple design, and control. In existing HASL converters, during the OFF mode, resonance between the drain-to-source capacitor and inductor results in a large voltage across the switches. This paper proposes an improved high step-up voltage gain HASL DC-DC converter, eliminating this resonance. The proposed converter is derived by integrating an active switched inductor cell with a switched capacitor cell. During the OFF mode operation of the proposed converter, the voltage across devices is supported with capacitors of a switched capacitor network, mitigating resonance and reducing voltage stress. The operating principles and steady-state analysis of the proposed converter are discussed, and design details are presented. A laboratory prototype of 600W for voltage step-up from 30V to 330V is developed and experimentally validated.

Topics & Concepts

InductorOscillation (cell signaling)Electrical engineeringVoltageFuel cellsForward converterBoost converterEngineeringChemistryBiochemistryChemical engineeringAdvanced DC-DC ConvertersMultilevel Inverters and ConvertersWireless Power Transfer Systems
Hybrid Active Switched Inductor DC-DC Converter With Common Ground and Suppressed Voltage Oscillation for Fuel Cell Vehicles | Litcius