Affordable Multiuse Drone Project with Arduino | Learn with nikhil
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- Опубликовано: 9 сен 2024
- Join me in this video as I show you how to create an affordable multiuse drone project using Arduino. Perfect for engineering students looking to build a high-quality drone on a budget. Let's learn together with Nikhil!
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Components list
1. **ESP32 CAM with OV2640**:
- 2-megapixel camera
- Integrated Wi-Fi and Bluetooth connectivity
- Support for microSD card storage
- UART communication interface
- GPIO pins for peripheral connections
- Compatibility with Arduino IDE and ESP-IDF development framework
2. **1000KV Standard BLDC Outrunner Motor**:
- High torque-to-weight ratio
- Efficient brushless operation
- Low cogging for smooth rotation
- Compatibility with various propeller sizes
- Suitable for RC aircraft, drones, and electric vehicles
3. **30A Standard ESC (Electronic Speed Controller)**:
- Support for brushless motors up to 30 amps
- Compatibility with various battery types and voltages
- Built-in BEC (Battery Eliminator Circuit) for powering onboard electronics
- Programmable settings such as throttle range and brake force
- Protection features like overheat and overcurrent protection
4. **3S LiPo Battery**:
- Nominal voltage of 11.1 volts
- Capacity typically ranging from 1000mAh to several thousand mAh
- High energy density for compact size and lightweight
- Suitable for RC vehicles, drones, and electronic devices
- Equipped with balance leads for safe charging and discharging
5. **Arduino Uno**:
- ATmega328 microcontroller
- 14 digital input/output pins (6 PWM outputs)
- 6 analog input pins
- 16MHz clock speed
- USB interface for programming and serial communication
6. **MPU6050**:
- 6-axis motion tracking (gyroscope and accelerometer)
- Digital motion processor for complex motion processing
- Gyroscope range: ±250, ±500, ±1000, or ±2000 dps
- Accelerometer range: ±2g, ±4g, ±8g, or ±16g
- I2C communication interface
7. **8045 Propeller**:
- Diameter of 8 inches
- Pitch of 4.5 inches
- Made from lightweight materials like plastic or carbon fiber
- Designed for use with brushless motors in RC aircraft, drones, and multirotors
8. **NodeMCU ESP8266**:
- Built-in USB-to-serial converter
- Integrated Wi-Fi connectivity
- GPIO pins for interfacing with sensors and actuators
- Compatibility with Arduino IDE and NodeMCU firmware
- Compact form factor
9. **CT6B Transmitter and Receiver**:
- 6-channel radio control system
- 2.4GHz frequency for reliable communication
- Compatibility with various RC models
- Adjustable transmitter power settings
- Ergonomic design for comfortable operation
10. **F450 Drone Frame**:
- Durable and lightweight construction
- Modular design for easy assembly and customization
- Compatibility with standard motor and propeller sizes
- Integrated mounting points for attaching components
- Spacious layout for wiring and payload integration
11. **Jumper Wires**:
- Various lengths and colors
- Male-to-male, male-to-female, and female-to-female configurations
- Compatibility with breadboards and Arduino headers
- Made with flexible insulated wires
- Sturdy connectors for reliable connectivity
To build this custom drone connect me on Instagram
Follow me on Instagram - / learnwithnikhil
Video editor - VN
#drone #engineering #engineeringprojects
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hii can u provide code?
i'm a student i want to do some research on it.