Continuous Finite-Time Terminal Sliding Mode IDA-PBC Design for PMSM with the Port-Controlled Hamiltonian Model

Authors

Shuanghe Yu, Lina Jin, Kai Zheng, Jialu Du

Abstract

Finite-time control scheme for speed regulation of permanent magnet synchronous motor (PMSM) is investigated under the port-controlled Hamiltonian (PCH), terminal sliding mode (TSM), and fast TSM stabilization theories. The desired equilibrium is assigned to the PCH structure model of PMSM by maximum torque per ampere (MTPA) principle, and the desired Hamiltonian function of state error is constructed in the form of fractional power structure as TSM and fast TSM, respectively. Finite-time TSM and fast TSM controllers are designed via interconnection and damping assignment passivity-based control (IDA-PBC) methodology, respectively, and the finite-time stability of the desired equilibrium point is also achieved under the PCH framework. Simulation results validate the improved performance of the presented scheme.

Citation

• Journal: Mathematical Problems in Engineering
• Year: 2013
• Volume: 2013
• Issue:
• Pages: 1–8
• Publisher: Wiley
• DOI: 10.1155/2013/473608

BibTeX

@article{Yu_2013,
  title={{Continuous Finite-Time Terminal Sliding Mode IDA-PBC Design for PMSM with the Port-Controlled Hamiltonian Model}},
  volume={2013},
  ISSN={1563-5147},
  DOI={10.1155/2013/473608},
  journal={Mathematical Problems in Engineering},
  publisher={Wiley},
  author={Yu, Shuanghe and Jin, Lina and Zheng, Kai and Du, Jialu},
  year={2013},
  pages={1--8}
}

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References

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