This IoT-based system for real-time monitoring and control of a single-phase induction motor leverages an Arduino Uno as the central controller, interfaced with various essential components. The system integrates an LCD display for immediate feedback, a Wi-Fi module for remote access and management, and a PZEM module to monitor electrical parameters such as voltage, current, and power. A temperature sensor tracks the motor’s thermal conditions, while a hall effect sensor provides accurate rotational speed data. Additionally, a relay facilitates motor operation control. This comprehensive setup ensures efficient, remote management and operational reliability, enhancing motor performance and safety through continuous, data-driven insights.      

Objectives:

• To monitor the voltage, current, power, temperature, and speed of a single-phase induction motor in real time.
• To implement IoT-based remote monitoring and control using a Wi-Fi module.
• To display motor parameters locally on an LCD screen.
• To measure motor speed accurately using a Hall Effect sensor.
• To monitor motor temperature and prevent overheating.
• To control motor operation through a relay module.
• To improve motor efficiency, reliability, and safety through continuous monitoring.
• To provide data-driven insights for predictive maintenance and fault detection.

      The main blocks of this project are:

• Power supply.
• Arduino UNO.
• ESP8266 WI-FI module.
• LCD display.
• PZEM module specifications.
• Hall effect sensor.
• Temperature sensor.
• Single phase motor.
• Relay.

    Software’s used:  

• Embedded C programming.
• Arduino IDE Studio compiler for dumping code into Micro controller.
• Express SCH for Circuit design.

           

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