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Flame Sensor Module – Infrared Fire Detection Sensor for Arduino by ADIY - Tomsone Electronics

Shop the Flame Sensor Infrared Receiver Module for accurate ignition source detection. High-quality and affordable. Buy online now at Tomsone Electronics.

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Flame Sensor Module – Infrared Fire Detection Sensor for Arduino by ADIY - Tomsone Electronics

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  1. Flame Sensor Module • A Comprehensive guide to Flame Sensor

  2. Introduction A flame sensor is a safety device used in heating systems to detect the presence of a flame. It ensures the burner is operating correctly by verifying that the flame is lit; if no flame is detected, it shuts off the fuel supply to prevent gas leaks or explosions.

  3. Why Flame Sensors Matter? Flame sensors matter because they ensure safety by detecting flames and shutting off fuel in case of failure, preventing gas leaks, fires, and explosions.

  4. Key Features of Flame Sensors • Detects flames within a range of 760 nm to 1100 nm wavelength. • High sensitivity to flame presence. • Fast response time. • Adjustable sensitivity for diverse applications.

  5. Applications of Flame Sensors • Fire detection systems. • Industrial safety and monitoring. • Robotics for flame tracking. • Smart home automation systems.

  6. Advantages of Using Flame Sensors • Enhanced safety and early fire detection. • Energy-efficient monitoring. • Cost-effective and reliable technology. • Versatility in various applications.

  7. 1. Infrared Flame Sensors: Detect IR light emitted by flames. 2. Ultraviolet Flame Sensors: Detect UV radiation from combustion. 3. Dual IR/UV Flame Sensors: Combine IR and UV detection for higher accuracy.

  8. How Flame Sensors Work • Infrared light detection from flames. • Converts the detected light into an electrical signal. • Interfaces with microcontrollers for processing.

  9. Technical Specifications • Detection Wavelength: 760nm–1100nm (IR spectrum). • Voltage: 3.3V–5V operating range. • Output Type: Digital (0/1) and Analog (0-1023). • Dimensions: Compact and lightweight design.

  10. VCC: Power supply. • GND: Ground. • DO: Digital Output. • AO: Analog Output.

  11. Integration with Microcontrollers • Compatible with Arduino, Raspberry Pi, and other platforms. • Simple interfacing using GPIO pins.

  12. Installation and Usage • Steps to Install: • Connect the sensor to the microcontroller (e.g., Arduino). • Power it using a 3.3V or 5V source. • Program the microcontroller for flame detection. • Usage Tip: • Test the module in a controlled environment for accuracy.

  13. Popular Flame Sensor Projects • Fire Alarm Systems. • Autonomous Firefighting Robots. • Gas Leak and Flame Detection Systems.

  14. Wide Range: Quality flame sensors and other components. • Affordable Prices: Competitive rates for bulk and individual buyers. • Trusted Brand: Reliable products for electronics enthusiasts and professionals.

  15. Contact Us • help@tomsonelectronics.com • 8606650999 • www.tomsonelectronics.com

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