IOT Based DC Motor Speed and Direction Control

Authors

  • Arem Satish Kumar Reddy UG Student, Department of Electrical and Electronics Engineering, Chadalawada Ramanamma Engineering College (CHDL), Tirupati, Andhra Pradesh, India Author
  • M Jahnavi UG Student, Department of Electrical and Electronics Engineering, Chadalawada Ramanamma Engineering College (CHDL), Tirupati, Andhra Pradesh, India Author
  • V Vishnu Vardhan Reddy UG Student, Department of Electrical and Electronics Engineering, Chadalawada Ramanamma Engineering College (CHDL), Tirupati, Andhra Pradesh, India Author
  • P Giridhar Reddy UG Student, Department of Electrical and Electronics Engineering, Chadalawada Ramanamma Engineering College (CHDL), Tirupati, Andhra Pradesh, India Author
  • E Raviteja UG Student, Department of Electrical and Electronics Engineering, Chadalawada Ramanamma Engineering College (CHDL), Tirupati, Andhra Pradesh, India Author

DOI:

https://doi.org/10.32628/IJSRST24112110

Keywords:

Internet of Things, DC motor control, Blynk mobile application, OLED display , ESP8266 microcontroller, L293D motor driver, Remote control, Real-time feedback, Wi-Fi connectivity, Home Automation, Robotics, Industrial Control Systems

Abstract

This paper introduces an innovative Internet of Things (IoT) based system designed to control the speed and direction of a DC motor using the Blynk mobile application. The system integrates an OLED display (SSD1306), an ESP8266 microcontroller, a 300 RPM DC motor, and an L293D motor driver. With this system, users can remotely manage the speed and direction of the DC motor through the Blynk app, accessible on smartphones or tablets. Real-time feedback on the motor's speed and direction is provided via the OLED display, enhancing user interaction and experience. The ESP8266 microcontroller acts as the core control unit, interfacing with the Blynk app via Wi-Fi to receive user commands and adjust the motor's operation accordingly. The bidirectional control feature of the L293D motor driver enables precise manipulation of the motor's speed and direction. By leveraging IoT technology and the Blynk app, users gain the flexibility to control the motor from any location with internet connectivity, offering convenience and accessibility. Additionally, the OLED display enhances the user interface, enabling intuitive monitoring and adjustment of motor parameters. In conclusion, this system offers a versatile and user-friendly solution for remotely managing DC motor speed and direction, with potential applications spanning across home automation, robotics, and industrial control systems.

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References

IOT based control of DC traction motor Akanksha, Shubham Kathuria School of Electrical Engineering, VIT University, Chennai Tamil Nādu 600127, India

Speed Control of DC Motor by using IoTPratima A. Uparwat1, Lalit

S. Khiradkar 2, Arati S. Sindhimeshram3, Chaitrali P. Dhenge4, Kunal K. Kamble5, Pratiksha Panchabhai6 1,2,3,4,5UG Students, Dept. of Electrical Engineering, JDCOEM, Maharashtra, India 6 Professor Dept. of Electrical Engineering, JDCOEM, Maharashtra, India.

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DBWS++Controlling+DC+Motors+with+the+L298N+Dual+H- Bridge+and+an+Arduino

Website; https://s3.amazonaws.com/download.dronebotworkshop.com/DBW S+Controlling+DC+Motors+with+the+L298N+Dual+HBridge+ and +an+Arduino.pdf

V.J. Sivanagappa and K.Haribalan,“Speed control of DC motor via Internet for Traction Applications”.

Andrea Azzara and Luca Mottola, “Virtual Resources for the Internet of Things”. Swedish Innovation Agency VINNOVA and “Smart Living Technologies” (SHELL)of the Italian ministry for university and research.

Online: http://praxis.ac.in/the-smartphone-and-the-internet-of things

IOT BASED DC MOTOR SPEED AND DIRECTION CONTROL. MR. Arem Satish Kumar Reddy, Chadalawada Ramanamma Engineering College, Dept. of EEE, Tirupati, India.

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Published

21-04-2024

Issue

Section

Research Articles

How to Cite

IOT Based DC Motor Speed and Direction Control. (2024). International Journal of Scientific Research in Science and Technology, 11(2), 707-714. https://doi.org/10.32628/IJSRST24112110

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