logologo
Contact

HOMEABOUTSERVICESBLOGSBOOKSSHOPCONTACT

+977 9803661701support@nepatronix.orgLokanthali, Bhaktapur

© 2025 NepaTronix all rigths reserved

Solar Panel and Buzzer with Button(STEAM Education)

  Back To Blogs

To understand the conversion of solar light energy into electrical energy and its application in powering and play Buzzer with the control of a push button.

Project : 17


Solar Panel and Buzzer with Button

 

Project Aim:

To understand the conversion of solar light energy into electrical energy and its application in powering and play Buzzer with the control of a push button.

Components Used:

1.     Solar Panel

2.     Push Button

3.     Buzzer

4.     Connecting Wires

 

Circuit Diagram:

 


If you want to post your project ,research or any document related to Ai,Ml,IoT,Robotics then please email us with your image ,details and your project at blog@nepatronix.org

Connection Procedure:

Step 1: Connect the positive terminal of the solar panel (Pin 51) to one terminal of the push button (Pin 57).

Step 2: Connect the other terminal of the push button (Pin 58) to the positive terminal of the buzzer (Pin 54).

Step 3: Connect the negative terminal of the buzzer (Pin 53) to the negative terminal of the solar panel (Pin 52).

Step 4: Ensure that the components are securely connected and the circuit is properly insulated to prevent short circuits.

Step 5: Take the circuit under sunlight (or any source of light) falls on the solar panel, it generates electrical energy that powers the circuit, whenever the Push Button is pressed the Buzzer will BEEP.

 

Explanation:

In this project, we're showcasing how solar energy can be harnessed effectively. We've connected a solar panel to a buzzer via a switch button in series. When sunlight hits the solar panel, it energizes the solar cell, converting light energy into electrical voltage. The Buzzer only BEEPS when the switch is pressed, demonstrating the conversion of solar energy into usable electricity.


If you want to post your project ,research or any document related to Ai,Ml,IoT,Robotics then please email us with your image ,details and your project at blog@nepatronix.org




Total likes : 4

Comments







Read More Blogs!

Electromagnetic Property(STEAM Education)

To understand the basic principles of electromagnetism and electromagnetic property in this project by building a electromagnet.


1.6k04

Research on IoT based Attendace System

This IoT based research project is designed to create an RFID-based attendance system using an ESP32 microcontroller and an MFRC522 RFID reader. The system reads RFID card UIDs, compares them with predefined UIDs to identify users, and displays the results on a LiquidCrystal_I2C LCD screen. If the scanned card UID matches the predefined UID, a "Welcome" message is shown; IoT Projects Arduino otherwise, an "Access Denied" message is displayed. This project demonstrates the use of RFID technology for access control and attendance management.IoT Projects .


3.1k011

Electromagnet with Compass(STEAM Education)

To understand the concept of electromagnetism and explore the direction of magnetic fields and poles.


1.7k05

Hydrogen Reader Through ESP32 (Mobile App Based)

The Hydrogen Gas Monitoring System project aims to create a wireless system that can monitor hydrogen gas levels and upload the data to a Firebase database for remote monitoring and analysis. The system utilizes an ESP32 development board, a hydrogen gas sensor, and Firebase's real-time database. The objective is to provide an efficient and reliable solution for monitoring hydrogen gas levels in an environment.


1.7k04