IEEE Access (Jan 2024)

Active Short-Circuit Strategy for PMSMs Enabling Bounded Transient Torque and Demagnetization Current

  • Gustaf Falk Olson,
  • Andrei Bojoi,
  • Paolo Pescetto,
  • Simone Ferrari,
  • Luca Peretti,
  • Gianmario Pellegrino

DOI
https://doi.org/10.1109/ACCESS.2024.3440015
Journal volume & issue
Vol. 12
pp. 109001 – 109011

Abstract

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The active short-circuit is a standard safety measure for permanent-magnet synchronous machine drives in electric vehicles, but it can lead to harmful torque and current transients. This paper introduces a mathematical and graphical method to determine the safe operating area of pre-fault current conditions, complying with user-defined torque bounds and preventing magnet demagnetization during short-circuit transients. The method incorporates an inductance-based motor model considering magnetic saturation, which is used to outline a strategy for transitioning to safe initial conditions in the minimum time for the available voltage. Experiments on a 35-kW permanent-magnet synchronous machine support the efficacy of the proposed strategy, offering promise for its use in automotive propulsion where compliance to safety standards such as the ISO 26262 is paramount.

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