Author
Listed:
- Md. Abdullah Al Rakib
(City University, Bangladesh.)
- Md. Moklesur Rahman
(University of Dhaka, Bangladesh.)
- Md. Miraj Hossain
(Tokyo University of Foreign Studies, Japan.)
- Md. Ashiqur Rahman
(University of Dhaka, Bangladesh.)
- Mousume Samad
(Saitama University, Japan.)
- Fysol Ibna Abbas
(Tokyo Metropolitan University, Japan.)
Abstract
Induction motors are widely employed in a variety of sectors, from household gadgets to industrial machinery. This mandates the deployment of an effective and safe speed control device. Induction motors may also run in either direction, which is beneficial in a variety of applications. The Induction Motor Speed and Direction Controller Project are designed to regulate the induction motor's speed and direction. Induction motors run on straight AC lines, and the amount of power they receive determines how fast they revolve. Through AC driver circuitry, we may regulate the power of the AC line to change the speed of the induction motor. A microcontroller from the Atmega family is utilized to provide PWM power to an opto-coupler, which drives the TRIAC that supplies power to the induction motor. The microcontroller receives instructions via a mobile phone connection to the system. The mobile phone sends DTMF signals to the system, which the system recognizes and responds to appropriately. A button is used to raise the speed of the induction motor, a button to change direction, and a button to lower the speed of the induction motor, according to the video. On the LCD, the entire procedure may be observed in real time. In this way, this project demonstrates how to control the speed and direction of an induction motor.
Suggested Citation
Md. Abdullah Al Rakib & Md. Moklesur Rahman & Md. Miraj Hossain & Md. Ashiqur Rahman & Mousume Samad & Fysol Ibna Abbas, 2022.
"Induction Motor Based Speed and Direction Controller,"
European Journal of Engineering and Technology Research, European Open Science, vol. 7(6), pages 82-86, October.
Handle:
RePEc:epw:ejeng0:v:7:y:2022:i:6:id:62868
DOI: 10.24018/ejeng.2022.7.6.2868
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