This KY-008 650nm Laser Transmitter Module for Arduino
Experience precise and reliable optical sensing with this KY-008 laser transmitter module. Designed for Arduino projects, this module emits a focused 650nm red laser beam, ideal for alignment, obstacle detection, or distance measurement. Its compact size of 15*24mm and sturdy polymer construction ensure easy integration into your circuits. With a working voltage of 5V, it provides consistent illumination and features an output that switches high when receiving a signal. Easy to install and use, this laser module elevates your DIY or professional projects by providing accurate optical signals. Visualize your projects working seamlessly with this laser transmitter, enhancing their precision and functionality. Perfect for those who want dependable and straightforward laser sensing solutions for innovative applications.
Keys features of this KY-008 650nm Laser Transmitter Module
- High-quality polymer build ensuring durability and longevity in your projects.
- Emits a 650nm red laser beam suitable for precise optical sensing applications.
- Compact PCB size of 1.52*2.22cm makes it easy to integrate into various setups.
- Operates at 5V supplying consistent laser output for reliable performance.
- Switching transducer output activates high-level signal upon detection of irradiation.
- Compatible with Arduino and DIY projects, suitable for obstacle detection or alignment tasks.
Get this KY-008 laser module now and elevate your project’s precision!
Imagine your project confidently detecting objects or aligning components with this reliable 650nm laser transmitter. Its easy setup and consistent performance make it a favorite for hobbyists and professionals alike. Whether you're building a sensor system or experimenting with ray detection, this KY-008 module is an excellent choice. Don't wait—bring accuracy and innovation to your projects today with this trusted laser transmitter module. Your creative ideas deserve a high-quality component to turn them into reality effortlessly.