Brushless Operation of Wound-Rotor Synchronous Machine Based on Sub-Harmonic Excitation Technique Using Multi-Pole Stator Windings

Humza, Muhammad; Yazdan, Tanveer; Ali, Qasim; Cho, Han-Wook

doi:10.3390/math11051117

Cited by 1 publication

(2 citation statements)

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“…However, due to the high cost of rare earth magnets, researchers have developed multiple PM-less synchronous machine topologies. These topologies are either based on sub-harmonics or third-harmonics field excitation methods [4][5][6][7][8][9][10]. Traditional wound rotor synchronous machines (WRSMs) require brushes and slip rings to supply excitation current to the rotor field windings.…”

Section: Introductionmentioning

confidence: 99%

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Torque Ripple Reduction in Brushless Wound Rotor Vernier Machine Using Third-Harmonic Multi-Layer Winding

Zulqarnain,

Hammad,

Ikram

et al. 2024

WEVJ

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This article aims to realize the brushless operation of a wound rotor vernier machine (WRVM) by a third-harmonic field produced through stator auxiliary winding (X). In the conventional model, a third-harmonic current is generated by connecting a 4-pole armature and 12-pole excitation windings serially with a three-phase diode rectifier to develop a pulsating field in the airgap of a machine. However, in the proposed model, the ABC winding is supplied by a three-phase current source inverter, whereas the auxiliary winding (X) carries no current due to an open circuit. The fundamental MMF component developed in the machine airgap creates a four-pole stator field, while the third-harmonic MMF induces the harmonic current in the specialized rotor harmonic winding. The rotor on the other side contains the harmonic and the field windings connected through a full-bridge rectifier. The electromagnetic interaction of the stator and rotor fields generates torque. Due to the open-circuited winding pattern, the proposed machine results in a low torque ripple. A 2D model is designed using JMAG-Designer, and 2D field element analysis (FEA) is carried out to determine the output torque and machine’s efficiency. A comparative performance analysis of both the conventional and proposed topologies is discussed graphically. The quantitative analysis of the proposed topology shows better performance as compared to the recently developed third-harmonic-based brushless WRVM topology in terms of output torque and torque ripples.

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Section: Introductionmentioning

confidence: 99%

“…However, the difference in currents resulted in unbalanced radial forces and high torque ripple. To deal with these issues, another brushless scheme was proposed in [6]. The stator part in this scheme contains two windings, i.e., 4-pole armature windings and 2-pole excitation winding.…”

Section: Introductionmentioning

confidence: 99%