Dongsik Kim scite author profile

A minimum root mean square (RMS) torque ripple-remote-state pulse-width modulation (MTR-RSPWM) technique is proposed for minimizing the RMS torque ripple under reduced common-mode voltage (CMV) condition of three-phase voltage source inverters (VSI)-fed brushless alternating current (BLAC) motor drives. The q-axis current ripple due to an error voltage vector generated between the reference voltage vector and applied voltage vector is analyzed for all pulse patterns with reduced CMV of the RSPWM. From the analysis result, in the MTR-RSPWM, a sector is divided into five zones, and within each zone, pulse patterns with the lowest RMS torque ripple and reduced CMV are employed. To verify the validity of the MTR-RSPWM, theorical analysis, simulation, and experiments are performed, where the MTR-RSPWM is thoroughly compared with RSPWM3 that generates the minimum RMS current ripple. From the analytical, simulation, and experimental results, it is shown that the MTR-RSPWM significantly reduces the RMS torque ripple under a reduced CMV condition at the expense of an increase in the RMS current ripple, compared to the RSPWM3.

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Virtual Education System for the C Programming Language

Moon

Han

Choi

et al.

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Implementation of a Web-Based Hybrid Educational System for Enhancing Learning Efficiency of Engineering Experiments

Kim

Choi

Lee

et al.

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Dongsik Kim

A Combined Virtual and Remote Laboratory for Microcontroller

A Web-Based Virtual Laboratory System for Electronic and Digital Circuits Experiments

Remote-State PWM with Minimum RMS Torque Ripple and Reduced Common-Mode Voltage for Three-Phase VSI-Fed BLAC Motor Drives

Virtual Education System for the C Programming Language

Implementation of a Web-Based Hybrid Educational System for Enhancing Learning Efficiency of Engineering Experiments

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