Effect of Thyristor on Speed Regulation of Single-Phase AC Motor with Frequency Parameter

Abstract

The use of an advanced motor speed regulator can provide several operational conditions for the motor, each offering different maximum values for the motor's output speed. This research investigates the effects of varying the number of pole pairs, external resistance controllers, armature input voltage, and the frequency converter of the power grid. Additionally, the study explores the incorporation of electronic components to enhance motor control. The integration of thyristor-based technology in speed regulation plays a crucial role in optimizing motor performance by improving the response time and efficiency under different operating conditions. Previous studies have highlighted the potential of electronic regulators in achieving better speed control and energy efficiency, with frequency modulation providing an innovative method for fine-tuning motor operation. By adjusting these parameters, the motor’s speed and overall performance can be precisely controlled, leading to more efficient systems for industrial applications, especially in fields requiring high-speed precision. Furthermore, the study emphasizes the importance of frequency adjustments in the context of thyristor-controlled motors, providing valuable insights into energy optimization and performance enhancement.