Energies (Oct 2020)

Two-Phase Linear Hybrid Reluctance Actuator with Low Detent Force

  • Jordi Garcia-Amorós,
  • Marc Marín-Genescà,
  • Pere Andrada,
  • Eusebi Martínez-Piera

DOI
https://doi.org/10.3390/en13195162
Journal volume & issue
Vol. 13, no. 19
p. 5162

Abstract

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In this paper, a novel two-phase linear hybrid reluctance actuator with the double-sided segmented stator, made of laminated U cores, and an interior mover with permanent magnets is proposed. The permanent magnets are disposed of in a way that increases the thrust force of a double-sided linear switched reluctance actuator of the same size. To achieve this objective, each phase of the actuator is powered by a single H-bridge inverter. To reduce the detent force, the upper and the lower stator were shifted. Finite element analysis was used to demonstrate that the proposed actuator has a high force density with low detent force. In addition, a comparative study between the proposed linear hybrid reluctance actuator, linear switched reluctance, and linear permanent magnet actuators of the same size was performed. Finally, experimental tests carried out in a prototype confirmed the goals of the proposed actuator.

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