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Highly Reliable Power Circuit Configuration with SiC Chopper Module for Hybrid Fuel Cell and Battery Power System for Urban Air Mobility (UAM) Applications

Author

Listed:
  • Moon-Seop Choi

    (Department of Railroad Electrical and Electronic Engineering, Korea National University of Transportation, Uiwang 16106, Republic of Korea)

  • Chong-Eun Kim

    (Department of Railroad Electrical and Information Engineering, Korea National University of Transportation, Uiwang 16106, Republic of Korea)

Abstract

This paper proposes a high-reliability power conversion system optimized for Urban Air Mobility (UAM) applications, which utilizes silicon carbide (SiC) chopper modules within a hybrid fuel cell and battery structure. The system features a redundant power configuration that employs both a main and an auxiliary battery to ensure continuous and stable power supply, even under emergency or fault conditions. By integrating SiC-based power converters, the proposed system achieves high efficiency, low switching losses, and enhanced thermal performance, which are crucial for the space- and weight-constrained environment of UAM platforms. Furthermore, a robust control strategy is implemented to enable smooth transitions between multiple power sources, maintaining operational stability and safety. System-level simulations were conducted using PowerSIM to validate the performance and reliability of the proposed architecture. The results demonstrate its effectiveness, making it a strong candidate for future UAM power systems requiring lightweight, efficient, and fault-tolerant power solutions.

Suggested Citation

  • Moon-Seop Choi & Chong-Eun Kim, 2025. "Highly Reliable Power Circuit Configuration with SiC Chopper Module for Hybrid Fuel Cell and Battery Power System for Urban Air Mobility (UAM) Applications," Energies, MDPI, vol. 18(12), pages 1-17, June.
    • Handle: RePEc:gam:jeners:v:18:y:2025:i:12:p:3197-:d:1681590
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