2019
DOI: 10.14513/actatechjaur.v12.n2.496
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Direct Instantaneous Torque Control of the Switched Reluctance Motor for Electric Vehicles Applications Using Fuzzy Logic Control

Abstract: This paper presents direct torque control of Switched Reluctance Motor (SRM) using Fuzzy Logic Control (FLC) for electric vehicles applications. The PD-FLC is proposed for SRM torque control, to keep the torque of the motor shaft in tracking the reference torque with high accuracy. With the help of FLC techniques, the SRM torque ripples can be reduced compared to traditional control techniques. In this study, the nonlinear 6/4 SRM model is simulated with the symmetrical converter, and the converter controller … Show more

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Cited by 4 publications
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“…The opposition position is the opposite position with the least amount of flux. The torque is created by magnetic variation between the stator pole and the rotor pole, hence its name "Switched reluctance motor" [12,13]. During a cycle of variation of the magnetic permeability four periods are…”
Section: Figure 1 Magnetization Curve Of M19 Steel B=f (H)mentioning
confidence: 99%
“…The opposition position is the opposite position with the least amount of flux. The torque is created by magnetic variation between the stator pole and the rotor pole, hence its name "Switched reluctance motor" [12,13]. During a cycle of variation of the magnetic permeability four periods are…”
Section: Figure 1 Magnetization Curve Of M19 Steel B=f (H)mentioning
confidence: 99%