INDUCTION MOTOR SPEED CONTROL AND DATA MONITORING OVER IOT

Code 574 INDUCTION MOTOR SPEED CONTROL AND DATA MONITORING OVER IOT

4.67 out of 5
(3 customer reviews)

17,400.00 15,000.00

Ready-made Project

If You Are Short On Time
17,400.00 15,000.00
Add to cart - OR - See more options

 

In this project we give a special idea of industrial automation, and fault monitoring. Induction motors are the nerves of many industries. Hence industrial automation is required for precise and accurate operation. The project Arduino-based parameter monitoring system for induction motor proposes a control and monitoring system for induction motor based on Arduino communication protocol for safe and economic data communication in industrial fields. The current, voltage, and temperature of the induction motors are very important parameters for its control system. The performance of an induction motor is directly affected by these fundamental quantities.

Kits DescriptionPrice
Ready-made Project + DIY Project Kit
If You Are An Enthusiast
Ready-made project kit, One more extra bare PCB solderable components for extra PCB, All documentation (Report, PPT, Circuit diagram, Program code, explanatory video ), Audio and video call support, and One year warranty 19,000.00 16,200.00
Ready-made Project
If You Are Short On Time
Ready-made project kit - All documentation (Report, PPT, Circuit diagram, Program code, explanatory video ), Audio and video call support, One year warranty. 17,400.00 15,000.00
DIY Project Kit
For Institutions
DIY KIT - Bare PCB, solderable components, external all components, All documentation (Report, PPT, Circuit diagram, Program code, explanatory video ), Audio and video call support, 16,000.00 14,000.00
For Documentation
(Report, PPT, Circuit diagram, Program code, Explanatory Video). Audio call support. 3,000.00 2,000.00
For Simulation
Proteus Simulation file, Program Coad, Hex File, Explanatory Video, Google Meet Or Zoom Meet Support. 4,000.00 3,000.00

Description

In this project we give a special idea of industrial automation, and fault monitoring. Induction motors are the nerves of many industries. Hence industrial automation is required for precise and accurate operation. The project Arduino-based parameter monitoring system for induction motor proposes a control and monitoring system for induction motor based on Arduino communication protocol for safe and economic data communication in industrial fields. The current, voltage, and temperature of the induction motors are very important parameters for its control system. The performance of an induction motor is directly affected by these fundamental quantities. However, during continuous operation, it is difficult to control the machines. Arduinosystem is used for collecting and storing data and generate control signals to start or stop the induction machine. We measure the different types of fault such as Over Voltage, Over Current, and Over Temperature.

Nowadays, the induction motor has remained the most popular type of motor for industrial applications. Monitoring and controlling of induction motor parameters are very essential in many applications and also for reliable operation there are several techniques available for the same. This paper deals with the monitoring of various parameters & control of three-phase induction motor remotely based on the Internet Of Things [IOT]. A module of sensor and transducers monitors the parameters like temperature, current, and voltage of induction motor and send to the processing unit which will display parameter on the server. The system also presents the automatic and manual control methods to stop or start the induction motor to avoid any system failures through the server gateway. The Implementation of this scheme will increase the working

NOTE =Induction motor speed control and data monitoring over iotis the project of last year’s engineering projects, BE final year engineering project. This project is used for the BE last year’s core electronics department students. This project is used for the electrical department students. This project isused for the core electrical department students.

Induction motor speed control and data monitoring over iotis the project of a good price for the engineering projects. It is a very comparative engineering project. It is a very good BE final year project. It is a project forarduinobased project. This project is sensors based project.This project is DHT and Temperature sensor based project.

The engineering projects give in the ELECTROSAL HI- TECH PVT.LTD. The best place for the degree final year engineering projects as well as for core electronics students’ and electrical final year for the golden opportunity.

Induction motor speed control and data monitoring over iotis an easy project and idea for the core electronics and electrical base students and 100% output is done.

HIGHLIGHTS

  • In this project the concept of the Internet of Things
    for monitoring motor system parameters remotely.
  • The project uses the Blynk platform
  • Early detection of motor failure.
  • The system has the specific advantage of less

 

BLOCK DIAGRAM

HARDWARE REQUIREMENTS

  • Ac supply
  • Transformer
  • Rectifier
  • Regulator
  • Lcd display
  • Arduino
  • Esp 32
  • Rpm Speed measurement
  • Voltage sensor
  • Current sensor
  • DTH 11 temperature sensor
  • ZVC
  • LOAD

SOFTWARE REQUIREMENTS

  • Arduino IDE
  • Proteus
  • Eagle

RESOURCES

Additional information

Weight1.8 kg
Dimensions30 x 30 x 10 cm
Kits

For Simulation, Ready-made Project + DIY Project Kit | If You Are An Enthusiast, Ready-made Project | If You Are Short On Time, DIY Project Kit | For Institutions, For Documentation, For PCB

3 reviews for INDUCTION MOTOR SPEED CONTROL AND DATA MONITORING OVER IOT

  1. 5 out of 5

    Manju

    This company is experience company and experience employee

  2. 4 out of 5

    Shashikant sathe

    Very nice customer support team.

  3. 5 out of 5

    Kamal Pathrut

    urjently project got in a day!! thank you.service by video call also provided.

Add a review

Your email address will not be published. Required fields are marked *