Product Description The Laser Receiving Sensor Module is a compact and reliable receiver designed to detect incoming laser light signals. It is widely used in laser communication, object detection, security systems, and robotics applications. The module converts the received laser light into an electrical signal, which can then be processed by a microcontroller such as Arduino, Raspberry Pi, ESP32, or STM32. With fast response time, low power consumption, and stable performance, the laser receiving sensor is ideal for laser-based wireless communication systems, line-of-sight detection, and DIY electronics projects. Its compact size and easy interface make it beginner-friendly and suitable for STEM education. Discover more sensors and automation modules at PowerMark Solution. Features Compact laser receiving sensor module Detects incoming laser light signals Converts optical input into digital/electrical signal Fast response time for real-time applications Low power consumption and stable operation Easy integration with Arduino, Raspberry Pi, ESP32, STM32 Suitable for DIY electronics and robotics projects Applications Laser communication systems Laser-based security alarms Robotics obstacle and position detection Line-of-sight object detection systems IoT and smart automation projects STEM education and research projects Technical Specifications Specification Details Sensor Type Laser Receiver Module Operating Voltage 3.3V – 5V Output Type Digital Signal Response Time Fast, real-time detection Interface GPIO (MCU-compatible) Module Type Compact PCB design Package Includes 1 × Laser Receiving Sensor Module Documentation Works with Arduino IDE and other microcontrollers. Connect the digital output pin to a microcontroller GPIO pin to detect laser beam presence. Can be paired with laser transmitters for line-of-sight communication projects. FAQs Q1: What does the Laser Receiving Sensor do?A: It detects incoming laser light and converts it into an electrical signal. Q2: Is it compatible with Arduino?A: Yes, it connects easily to Arduino GPIO pins. Q3: What is the operating voltage?A: It works within 3.3V to 5V. Q4: Does it provide analog or digital output?A: It provides a digital signal output. Q5: Can it be used with Raspberry Pi?A: Yes, it works with Raspberry Pi GPIO. Q6: What are typical applications?A: Laser communication, robotics, and security systems. Q7: Is it beginner-friendly?A: Yes, it is widely used in STEM education and DIY electronics. Q8: Does it require calibration?A: No, it works directly when paired with a laser source. Q9: Can it detect any light source?A: It is optimized for laser light detection, not general ambient light. Q10: Is it suitable for robotics?A: Yes, especially for line-of-sight obstacle detection and navigation.
