Hybrid power generation is an efficient way to utilize multiple renewable energy sources to ensure a continuous power supply. This project focuses on the development of a hybrid power generation and monitoring system using solar, wind, and piezoelectric energy sources. A PIC microcontroller is used to integrate and manage these power sources, directing the generated electricity to a charging circuit for battery storage. The system supplies a regulated 5V DC output to power connected components. To enhance monitoring and real-time data accessibility, an ESP8266 Wi-Fi module is used to upload voltage readings to the IoT platform ThingSpeak. The LCD display provides a visual representation of the voltage levels, while LED indicators provide status notifications. A reset mechanism ensures stability and reliability in case of system faults. This hybrid energy system aims to optimize renewable power utilization, providing a sustainable and smart energy solution. It is particularly useful for remote areas where a single energy source may be insufficient, ensuring continuous energy availability through intelligent resource management.    

Features:

 Uses Three Energy Sources – Solar, wind, and piezoelectric power to generate electricity.

 Stores Power – A battery stores extra energy for later use.

 Provides a Steady 5V Output – Supplies power to different devices safely.

 Monitors Energy in Real-Time – Sends voltage data to the Internet using Wi-Fi (ESP8266) and displays it on ThingSpeak.

 LCD Screen & LED Indicators – Shows power levels and system status.

 Smart Control with Microcontroller – A PIC microcontroller manages power flow.

 Reset Function – Helps restart the system in case of errors.

 Useful for Remote Areas – Works in places where normal power sources are unreliable.      

The major building blocks of this project are:

1. PIC Microcontroller based control system with regulated power supply.
2. ESP8266 WI-FI module.
3. Solar panel
4. LED Indicators.
5. LCD display.
6. Wind turbine
7. Piezoelectric sensor
8. Charging circuit.
9. Rechargeable battery.
10. LEDs.
11. Voltage sensors.

    Software’s used:  

1. PIC-C compiler for Embedded C programming.
2. PIC kit 2 programmer for dumping code into Micro controller.
3. Express SCH for Circuit design.
4. Thingspeak cloud.

      Regulated Power Supply:

           

   

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