Performance Improvement of Bearingless Multisector PMSM With Optimal Robust Position Control

Giorgio Valente, Andrea Formentini, Luca Papini, Christopher Gerada, Pericle Zanchetta

Research output: Journal PublicationArticlepeer-review

31 Citations (Scopus)

Abstract

Bearingless machines are relatively new devices that consent to suspend and spin the rotor at the same time. They commonly rely on two independent sets of three-phase windings to achieve a decoupled torque and suspension force control. Instead, the winding structure of the proposed multisector permanent magnet (MSPM) bearingless machine permits to combine the force and torque generation in the same three-phase winding. In this paper, the theoretical principles for the torque and suspension force generation are described and a reference current calculation strategy is provided. Then, a robust optimal position controller is synthesized. A multiple resonant controller is then integrated in the control scheme in order to suppress the position oscillations due to different periodic force disturbances and enhance the levitation performance. The linear quadratic regulator combined with the linear matrix inequality theory has been used to obtain the optimal controller gains that guarantee a good system robustness. Simulation and experimental results will be presented to validate the proposed position controller with a prototype bearingless MSPM machine.

Original languageEnglish
Article number8403312
Pages (from-to)3575-3585
Number of pages11
JournalIEEE Transactions on Power Electronics
Volume34
Issue number4
DOIs
Publication statusPublished - Apr 2019

Keywords

  • Bearingless machines
  • H control
  • H control
  • linear matrix inequality (LMI)
  • linear quadratic regulator (LQR)
  • multiphase machines

ASJC Scopus subject areas

  • Electrical and Electronic Engineering

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