KY-020 Tilt Switch Module
KY-020 Tilt Switch Module
Enhance your Arduino and DIY projects with the KY-020 Tilt Switch Module, available at Wildware.net. This reliable tilt sensor module is designed to detect changes in orientation, making it perfect for a wide range of applications from robotics to home automation. Its compact design and ease of integration make it an essential component for developers, hobbyists, and educators seeking precise and dependable angle detection.
Key Features:
- Accurate Tilt Detection: Senses changes in orientation with high sensitivity and precision.
- Digital Output: Provides a digital signal output, easily interfacing with microcontrollers like Arduino.
- LED Indicators: Equipped with LED indicators for power and signal detection, simplifying troubleshooting.
- Compact Design: Small form factor, ideal for space-constrained projects and easy integration.
- Reliable Performance: Built to deliver consistent and reliable angle detection in various applications.
Technical Specifications:
- Operating Voltage: 3.3V to 5V
- Output Type: Digital (high/low)
- Tilt Detection Angle: Typically detects angles from 0° to 90°
- LED Indicators: Power and signal detection LEDs
- Dimensions: 20 x 14 x 10 mm
Applications:
- Robotics: Ideal for detecting the orientation of robotic arms, vehicles, and other robotic components.
- Home Automation: Use in smart home projects to detect the tilt of objects or devices.
- DIY Projects: Perfect for hobbyists building custom electronics that require tilt sensing.
- Safety Systems: Integrate into safety systems to monitor the angle of machinery or equipment.
- Educational Kits: Excellent for teaching and learning about tilt sensors and their applications.
Why Choose the KY-020 Tilt Switch Module? The KY-020 Tilt Switch Module offers high sensitivity and reliable performance, making it a versatile choice for a variety of projects. Its compatibility with Arduino and other microcontrollers, along with its compact design, ensures that it can meet the needs of both simple and complex applications.