The thyristor is a power electronics device that is widely used in various electrical appliances due to its lower on-conduction losses, easyavailability, lower switching loss, greater efficiency and cost-benefit. Mostly a thyristor is used in rectifiers and variable-speed drives. Almost 70% of loads used in the world consists of induction motors in various types and forms. In this work, a thyristor-based controller is used to control the speed of a single phase induction motor by adjusting the firing angle for the gate terminal of the thyristor. Depending upon the firing angle, the output voltage, output current, speed, power factor and the total harmonic distortion are varied which is analyzed through MATLAB/Simulink. Further curve fitting technique is used to formulate the mathematical relationships between varying parameters concerning thyristor’s firing angle. The findings of this work are helpful to achieve the best curve fit model for varying parameters concerningthe thyristor firing angle. Full Text
Simulink Analysis and Mathematical Modeling of Parameters Variation for Thyristor Based Speed Controller of Single Phase Induction Motor
2021-12-31
International Journal of Innovations in Science & Technology; Vol. 3 No. 4 (2021): Special_Issue NUML; 45-58 ; 2709-6130 ; 2618-1630
Article (Journal)
Electronic Resource
English
DDC: | 629 |
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