Digital PWM-Control-Based Active Vibration Cancellation for Switched Reluctance Motors

Makino, H.; Kosaka, Takashi; Matsui, Nobuyuki

doi:10.1109/tia.2015.2448065

Cited by 74 publications

(29 citation statements)

References 10 publications

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“…Applying different excitation methods such as single phase excitation, PWM voltage control excitation etc., to develop an anti-phase vibration for mitigating the vibration of SRM is discussed in [27]. Research for controlling the vibration and acoustic noise of SRM by using different converter control strategy are presented in [28,29].…”

Section: Literature Reviewmentioning

confidence: 99%

Energy Saving and Economic Analysis of Switched Reluctance Motor in Agricultural Applications

Kumar¹,

Bindu²,

Cherian³

et al. 2019

Technol Econ Smart Grids Sustain Energy

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Improvement of efficiency in electrical machines for water lifting applications in agricultural sector results in large energy savings, which is very much important in the present scenario of energy crisis. Single and three phase induction motors are most commonly used in such applications. However, these machines consume more energy due to their low efficiencies. A comprehensive performance evaluation including the machine design, selection of converter topologies, method of control, practical implementation of drive system, and vibration analysis for an agriculture applications is not done so far. This paper discuses to design Switched Reluctance Motor suitable for use in agricultural applications. Select suitable drive systems for this motor, giving considerations to lower switching losses and easiness of control. To investigate suitable control strategies for the speed control of the motor. Experimental validation of the performances of the motor, along with the vibration analysis. A real time experiment is also conducted to demonstrate the suitability of Switched Reluctance Motor drive for water lifting application and finally, per year unit consumption of Single Phase Induction Motor and Switched Reluctance Motor are compared to prove the economic superiority of Switched Reluctance Motor.

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Section: Literature Reviewmentioning

confidence: 99%

Energy Saving and Economic Analysis of Switched Reluctance Motor in Agricultural Applications

Kumar¹,

Bindu²,

Cherian³

et al. 2019

Technol Econ Smart Grids Sustain Energy

View full text Add to dashboard Cite

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“…AVC is introduced to reduce the vibration in SRM [8,9]. In the AVC method, two stages of commutation are applied.…”

Section: Active Vibration Cancellation (Avc)mentioning

confidence: 99%

“…In [9], the AVC method is conducted in the 12/8 SRM which was rotating at 1500 r/min. The acoustic was measured in the experiment.…”

Section: Active Vibration Cancellation (Avc)mentioning

confidence: 99%

Review of Switched Reluctance Motor Control for Acoustic Noise and Vibration Reduction

Furqani¹,

Purwadi²

2018

IJSTT

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Switched Reluctance Motor (SRM) is one of the candidates for substituting permanent magnet motor in Hybrid Electric Vehicle (HEV) application. Compared to permanent magnet motor, SRM is relatively low cost, robust, high reliability, and possible for high-temperature operation because of the absence of permanent magnet. One significant problem in SRM is the high acoustic noise and vibration. The vibration in SRM is caused by the radial forces acting at the stator teeth. Because of the saliency pole configuration in SRM, vibration is prominent. Many studies tried to reduce acoustic noise and vibration in SRM. In this paper, several controls for acoustic noise and vibration reduction are shown. The acoustic noise and vibration reduction from the experiment are also compared in each method.

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“…The phase winding is energised when both the switches are turned on. While the rotor position reaches the turn-off angle, both the switches are simultaneously turned off and the radial force acting on the energised stator tooth suddenly changes its inclination so that the vibration occurs on the excited tooth [22]. The vibration process is divided into two stages.…”

Section: Vibration Generation Mechanismmentioning

confidence: 99%

Method for radial vibration modelling in switched reluctance motor

Guo

Zhong

Zhao³

et al. 2016

IET Electric Power Applications

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The wide application of switched reluctance motor has been limited due to its high acoustic noise, which is mainly caused by radial vibration. In this study, a new radial vibration model is proposed consisting of vibration acceleration impulse model and natural oscillation model. The vibration acceleration impulse model is developed based on the measured sample data using least-square support vector machine method. Natural oscillation model is also proposed based on the superposition of each frequency, which is obtained by finite element method. The vibration model is built up in MATLAB/Simulink and various experiments have been conducted to verify the accuracy of the proposed model.

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Digital PWM-Control-Based Active Vibration Cancellation for Switched Reluctance Motors

Cited by 74 publications

References 10 publications

Energy Saving and Economic Analysis of Switched Reluctance Motor in Agricultural Applications

Energy Saving and Economic Analysis of Switched Reluctance Motor in Agricultural Applications

Review of Switched Reluctance Motor Control for Acoustic Noise and Vibration Reduction

Method for radial vibration modelling in switched reluctance motor

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