Robot Projects
Robot Projects
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Robot Projects
Line Follower Robot using IR Sensor
This simple line-following robot uses IR sensors to detect and follow a path. It is powered by a 3.7V 2200mAh 18650 lithium-ion battery with a TP4056 charging module for safe recharging. The L293D motor driver controls the DC motors, ensuring smooth movement. A switch is included for easy power control. Ideal for robotics enthusiasts and beginners!
SKU: Line Follower Robot using IR Sensor -
Robot Projects
Obstacle Avoidance Robot Car using Arduino UNO – Red
An Obstacle Avoidance Robot Car using Arduino UNO is an autonomous vehicle that detects and avoids obstacles using an ultrasonic sensor. Controlled by an Arduino UNO and driven by an L293D motor driver, the robot changes direction upon sensing an obstacle, making it ideal for learning robotics and programming basics.
SKU: obstacle-avoidance-robot-car-using-arduino-uno-4wd-1 -
Robot Projects
Human Following Robot Car using Arduino UNO
A Human Following Robot Car using Arduino UNO is designed to autonomously track and follow a person. It uses IR sensors to detect the person and an ultrasonic sensor to maintain distance. Controlled by an Arduino UNO and powered by an L293D motor driver, this project showcases basic robotics and sensor integration.
SKU: obstacle-avoidance-robot-car-using-arduino-uno-4wd-chasis -
Robot Projects
Obstacle Avoidance Robot Car using Arduino UNO
An Obstacle Avoidance Robot Car using Arduino UNO is an autonomous vehicle that detects and avoids obstacles using an ultrasonic sensor. Controlled by an Arduino UNO and driven by an L293D motor driver, the robot changes direction upon sensing an obstacle, making it ideal for learning robotics and programming basics.
SKU: obstacle-avoidance-robot-car-using-arduino-uno-4wd -
Robot Projects
Surveillance Car using ESP32 Cam module
The Surveillance Car using ESP32 Cam Module project turns a standard remote-controlled car into a mobile surveillance device. The ESP32 Cam module, equipped with a camera, streams live video to a remote server or smartphone, allowing users to monitor the car’s surroundings in real time. The car’s movement and camera angles can be controlled remotely, offering versatility for various applications such as home security or exploration. This project integrates robotics with wireless communication and video streaming, showcasing the ESP32 Cam’s capabilities in creating an advanced, interactive surveillance system. It’s an engaging way to blend electronics, programming, and remote control technologies.
SKU: surveillance-car-using-esp32-cam-module -
Robot Projects
Floor Cleaning Robot Project
A Floor Cleaning Robot is an innovative robotics project that automates the cleaning process using smart navigation and control mechanisms. This DIY project is ideal for engineering students and hobbyists looking to develop a robotic system capable of sweeping, vacuuming, and mopping floors.
SKU: Floor Cleaning Robot Project -
BTech Final Year Electronics Projects, Electrical Projects (BTech MTech), Electronics Projects (BTech MTech), Robot Projects
Solar based Voice and Gesture Control Robot
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BTech Final Year Electronics Projects, Electrical Projects (BTech MTech), Electronics Projects (BTech MTech), Robot ProjectsSolar based Voice and Gesture Control Robot
The Solar-Based Voice and Gesture Control Robot is an innovative robotic system powered by solar energy, designed for hands-free operation using voice commands and hand gestures. Equipped with advanced sensors, a microcontroller, and a solar panel, this robot efficiently performs tasks without relying on conventional power sources.
SKU: Solar based Voice and Gesture Control Robot -
Robot Projects
Obstacle Avoidance Robot Car using IR Sensor
The Obstacle Avoidance Robot Car using IR Sensors is an autonomous vehicle that detects and avoids obstacles in its path. It is ideal for students, hobbyists, and robotics enthusiasts looking to learn about sensor-based navigation.
How It Works:
The robot uses Infrared (IR) sensors to detect obstacles by emitting and receiving infrared signals. When an obstacle is detected, the motor driver changes the direction of the wheels to avoid collisions, allowing smooth autonomous movement.
Key Components:
- IR Sensors for obstacle detection.
- Motor Driver Module to control movement.
- DC Motors & Wheels for navigation.
- Chassis & Battery for stability and power.
Applications & Benefits:
- Hands-free navigation without human control.
- Educational project for learning robotics.
- Cost-effective and easy to build.
This project provides a practical introduction to robotics, automation, and sensor technology.
SKU: Obstacle Avoidance Robot Car using IR Sensor -
Robot Projects
RF Controlled Solar-Powered Mini E-Rickshaw
The Mini Solar E-Riksha is a wirelessly controlled robot powered by solar energy and a rechargeable battery. It uses an RF transmitter & receiver (433MHz) for remote operation, with HT12E & HT12D encoder-decoder ICs for signal communication. The L298N/L293D motor driver controls the DC motors and wheels, enabling smooth movement in all directions. A solar panel charges the battery, making it an eco-friendly and energy-efficient system. Ideal for learning robotics, automation, and green energy applications.
SKU: RF Controlled Solar-Powered Mini E-Rickshaw -
Robot Projects
Edge Avoiding Robot using IR Sensor
This robot uses IR sensors to detect and follow a path while avoiding edges. It is powered by a 3.7V 2200mAh 18650 lithium-ion battery with a TP4056 charging module for safe recharging. The L293D motor driver efficiently controls the DC motors, ensuring smooth movement. A convenient power switch is included for easy operation. Perfect for robotics enthusiasts and beginners looking to explore autonomous navigation!
SKU: Edge Avoiding Robot using IR Sensor -
Robot Projects
Rf Control Robot using RF Module
This project focuses on building an RF-controlled robot using an RF transmitter and receiver module for wireless communication. The robot can be remotely operated using radio frequency (RF) signals, making it ideal for surveillance, remote monitoring, and automation applications.
Working Principle:
- The RF transmitter sends control signals using push buttons.
- The RF receiver receives these signals and decodes them using a decoder IC (HT12D).
- The decoded signals control motor driver IC (L298N or L293D), which drives the robot’s motors accordingly.
Applications & Benefits:
- Used in wireless robotic applications such as remote-controlled cars, industrial automation, and military surveillance.
- Provides long-range communication (typically up to 100 meters).
- Simple and cost-effective project for learning RF communication and robotics.
SKU: Rf Control Robot using RF Module (without Microcontroller) -
Robot Projects
Line Following Robot (LFR) Car using Arduino Uno
The Line Following Robot Car using Arduino Uno autonomously follows a predefined path using infrared sensors. The Arduino Uno processes sensor data to detect the line and adjusts the car’s direction to stay on track. This project is perfect for learning about robotics, sensor integration, and control systems.
SKU: line-following-robot-car-using-arduino-uno -
Robot Projects
Obstacle Avoidance Robot Car using Arduino UNO
The Obstacle Avoidance Robot Car using Arduino UNO autonomously navigates around obstacles using ultrasonic sensors. The Arduino UNO processes sensor data to detect obstacles and adjusts the car’s direction accordingly. This project is ideal for learning robotics and automation, offering practical insights into autonomous navigation systems.
SKU: obstacle-avoidance-robot-car-using-arduino-uno -
Robot Projects
Bluetooth Voice Control Robot Car using Arduino
The Bluetooth Voice Control Robot Car using Arduino allows users to control a robot car via voice commands transmitted through a Bluetooth connection. The Arduino processes voice commands received from a smartphone app to maneuver the car. Ideal for remote-controlled projects and interactive robotics.SKU: bluetooth-remote-control-car-using-arduino-1 -
Robot Projects
Bluetooth Remote Control Robot Car using Arduino
The Bluetooth Remote Control Robot Car using Arduino is an exciting project that combines robotics and wireless communication. This DIY kit allows you to build a robot car that can be controlled remotely via Bluetooth. Utilizing an Arduino board as the controller, this project integrates a Bluetooth module for wireless communication, enabling you to steer and operate the car from your smartphone or tablet. The robot car typically features motors for movement, a motor driver to control the motors, and various sensors for obstacle detection. Ideal for electronics enthusiasts, this project offers hands-on experience with Arduino programming and Bluetooth technology.
SKU: bluetooth-remote-control-car-using-arduino
