Fractional control methods, known for their smoother operation and higher efficiency are replacing conventional control techniques that prioritize simplicity and cost considerations. This paper suggests the implications of these control methods across various applications, emphasizing scenarios where precise control, reduced torque ripple, and enhanced efficiency are paramount. This paper presents a comprehensive comparative study of fractional and conventional control methodologies for Brushless DC motors control system. The main focus is on assessing their respective impacts on motor performance, efficiency, and operational characteristics. The basis of comparison is transient response of different closed loop systems for overshoot, rise time, peak time and system stability. The research findings of various researchers aim to provide insights into selecting the most suitable control methodology based on specific application requirements, shedding light on the trade-offs between performance, complexity, and cost in Brushless DC motor control.

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Comparative Analysis of Fractional and Conventional Control Techniques for BLDC Motor Performance Optimization

  • Megha Sharma,
  • Shailly Sharma,
  • Jayashri Vajpai

摘要

Fractional control methods, known for their smoother operation and higher efficiency are replacing conventional control techniques that prioritize simplicity and cost considerations. This paper suggests the implications of these control methods across various applications, emphasizing scenarios where precise control, reduced torque ripple, and enhanced efficiency are paramount. This paper presents a comprehensive comparative study of fractional and conventional control methodologies for Brushless DC motors control system. The main focus is on assessing their respective impacts on motor performance, efficiency, and operational characteristics. The basis of comparison is transient response of different closed loop systems for overshoot, rise time, peak time and system stability. The research findings of various researchers aim to provide insights into selecting the most suitable control methodology based on specific application requirements, shedding light on the trade-offs between performance, complexity, and cost in Brushless DC motor control.