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Design and Control of a Floating Interleaved Boost DC-DC Converter for Fuel Cell Applications.

, , , , and . IECON, page 2026-2031. IEEE, (2018)

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An Optimization Energy Management Strategy Based on Dynamic Programming for Fuel Cell UAV., , , , and . IECON, page 1-6. IEEE, (2021)High-Frequency Limitation Deep Reinforcement Learning Based Energy Management Strategy for Dual Fuel Cell Electric Aircraft., , , , , and . IAS, page 1-6. IEEE, (2022)Design and Control of a Floating Interleaved Boost DC-DC Converter for Fuel Cell Applications., , , , and . IECON, page 2026-2031. IEEE, (2018)An Energy Management Strategy of More-Electric Aircraft Based on Fuzzy Neural Network Trained by Dynamic Programming., , , , , and . IECON, page 1-6. IEEE, (2021)An Improved Nonlinear Droop Control Method Applied to DC Microgrid., , , , , and . IAS, page 1-6. IEEE, (2023)Research on Multi-Objective Optimized Energy Management Strategy for Fuel Cell Hybrid Vehicle Based on Work Condition Recognition., , , , and . IECON, page 1-6. IEEE, (2021)Evaluation and fault tolerant control of a floating interleaved boost converter for fuel cell systems., , , and . IAS, page 1-7. IEEE, (2016)Control of Interleaved Converters with Constant Power Load for DC Microgrid Application., , , and . IAS, page 1-6. IEEE, (2020)Observer-Based Robust Switch Open-Circuit Fault Diagnosis of DC-DC Converter for Fuel Cell Application., , , , , and . IAS, page 1-6. IEEE, (2019)Robust buck converter design with a high-order sliding mode differentiator., and . IECON, page 162-167. IEEE, (2015)