AC Power Strength Controller System

Self-Paced Projects

Fee: ₹499

The AC power strength controller system project aims to develop a system that can precisely control the amount of power supplied to a connected load while monitoring and protecting it from overvoltage or undervoltage situations that may cause damage. The system is expected to be highly efficient, providing cost savings through the reduction of energy consumption. It is also anticipated that the system will be capable of remote monitoring and control, making it accessible from anywhere through a web-based or mobile application. This project aims to provide a highly functional and user-friendly solution to controlling and monitoring AC power supply.

Objectives

The AC power strength controller system project involves designing and implementing a system that can control and monitor AC power supply to a connected load. The system will utilize various components such as sensors, microcontrollers, relays, and displays to achieve its objectives. The software and firmware for the system will be developed using programming languages such as C and Python, and will include features such as load monitoring, power factor correction, and real-time notifications. The project will also involve testing and validation of the system to ensure that it meets the specified requirements and is safe for use.

The objective of the project is to design a system that can control the strength of AC power that is supplied to a particular setup, thereby providing a stable power supply.

What Will You Learn

1.How to design and implement an AC power control system using microcontrollers and other electronic components. 2.How to program microcontrollers using languages such as C and Python to achieve specific functionalities in the system. 3.How to integrate sensors, displays, and other components to enable load monitoring and control. 4.How to utilize power factor correction techniques to improve power utilization and efficiency. 5.How to test and validate the system to ensure it meets the specified requirements and is safe for use

Skills you will gain

Electronic design and prototyping skills, including PCB design, schematic capture, and component selection.

Programming skills in languages such as C and Python, as well as knowledge of microcontroller architectures and development environments.

System integration skills, including connecting sensors, displays, and other components to the microcontroller and ensuring proper functionality.

Knowledge of power electronics, including power factor correction and voltage regulation techniques.

Testing and validation skills, including developing test plans, performing testing, and analyzing test results to ensure system functionality and safety.