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A Linear Parameter Varying Control Approach for DC/DC Converters in All-Electric Boats

Author

Listed:
  • Soroush Azizi
  • Mohammad Hassan Asemani
  • Navid Vafamand
  • Saleh Mobayen
  • Mohammad Hassan Khooban
  • Carlos Aguilar-Ibanez

Abstract

Utilization of renewable energies in association with energy storage is increased in different applications such as electrical vehicles (EVs), electric boats (EBs), and smart grids. A robust controller strategy plays a significant role to optimally utilize the energy resources available in a power system. In this paper, a suitable controller for the energy resources of an EB which consists of a 5 kW solar power plant, 5 kW fuel cell, and 2 kW battery package is designed based on the linear parameter varying (LPV) controller design approach. Initially, all component dynamics are augmented, and by exploiting the sector-nonlinearity approach, the LPV representation is derived. Then, the LPV control method determines the suitable gains of the states’ feedbacks to provide the required pulse commands of the boost converters of the energy resources to regulate the DC-link voltage and supply the power of EB loads. Comparing with the state-of-the-art nonlinear control methods, the developed control approach assures the stability of the overall system, as it considers all component dynamics in the design procedure. The real-time simulation results demonstrate the performance of the designed controller in the creation of a constant DC-link voltage.

Suggested Citation

  • Soroush Azizi & Mohammad Hassan Asemani & Navid Vafamand & Saleh Mobayen & Mohammad Hassan Khooban & Carlos Aguilar-Ibanez, 2021. "A Linear Parameter Varying Control Approach for DC/DC Converters in All-Electric Boats," Complexity, Hindawi, vol. 2021, pages 1-12, February.
    • Handle: RePEc:hin:complx:8848904
    DOI: 10.1155/2021/8848904
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