Fast electro-mechanical performance evaluation tool for synchronous reluctance machine

Rasid, M. A. H.; Benkara, Khadija El Kadri; Lanfranchi, Vincent

doi:10.1007/s12541-017-0186-1

Cited by 5 publications

(1 citation statement)

References 9 publications

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“…The SynRM machine phasor diagram allows us to evaluate different parameters depending on the available input [22]. A tool for fast evaluation of the electromechanical performance using the phasor diagram was developed and presented in [23]. The tools take as input the inductances and the resistance value, then compute the torque-speed operating area using an algorithm that can be described as in Figure 5.…”

Section: Development Of the Analytical Model For Torque-speed Operati...mentioning

confidence: 99%

Influence of temperature on power factor and operating area of SynRM machine in automotive equipment

Rasid,

Lanfranchi,

Ospina

et al. 2024

IJPEDS

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Across various applications, electrical machines are intensely replacing conventional hydraulic and pneumatic actuators in applications with a higher degree of complexity. In our previous study, a SynRM machine with a segmented rotor was designed to operate as a clutch actuator, to be placed in the gear housing which suffers from a high ambient temperature. This makes it necessary to predict the considerable potential influence of temperatures. This study evaluates the influence of winding resistance variation due to temperature on the machine power factor and its operating area. The evaluation is done for the condition of the automotive battery supply of 14 V, 50 A. An experimentally validated analytical model based on the SynRM machine phasor diagram was used to assess the torque-speed area and power factor variation. The main contribution is presented in the form of a tool represented as an abacus that allows the user of the machine to track the power factor and maximum speed for a range of winding resistance values. On a selected operating point of (Γ, N) = (0.57 N.m, 3500 rpm), it is demonstrated that the winding resistance should be reduced below 0.2 Ω, to be able to achieve the targeted speed, while the power factor is at 0.9.

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Section: Development Of the Analytical Model For Torque-speed Operati...mentioning

confidence: 99%

Influence of temperature on power factor and operating area of SynRM machine in automotive equipment

Rasid,

Lanfranchi,

Ospina

et al. 2024

IJPEDS

View full text Add to dashboard Cite

show abstract

Comparison of Stress and Deformation Due to Electromagnetic Torque in SynRM with Flux-Barrier and Segmented Rotor

How,

Jahak,

Rasid

2024

Lecture Notes in Electrical Engineering

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Torque Ripple Analysis of Synchronous Reluctance Motor with Different Rotor Topologies for Application with Dimensional Constraint

Rasid

Lanfranchi

Ospina

et al. 2020

J. Electr. Eng. Technol.

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Fast electro-mechanical performance evaluation tool for synchronous reluctance machine

Cited by 5 publications

References 9 publications

Influence of temperature on power factor and operating area of SynRM machine in automotive equipment

Influence of temperature on power factor and operating area of SynRM machine in automotive equipment

Comparison of Stress and Deformation Due to Electromagnetic Torque in SynRM with Flux-Barrier and Segmented Rotor

Torque Ripple Analysis of Synchronous Reluctance Motor with Different Rotor Topologies for Application with Dimensional Constraint

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