● Sensing distance 2cm~150cm, sensing angle 10~15° cone angle
● Power supply voltage DC 5~12V, no-load working current 5~50mA
● Working temperature -10~75℃, storage temperature -20~70℃
● Shell material PE, protection level IP55
● Sensing range 120°, sensing distance 5m
● Standby current ≤12uA, working voltage 3V
● Working temperature -10~45℃, working humidity 0%~99%RH
● Small size, compact structure, shell material is ABS
● The active infrared sensor can be used in indoor or outdoor environments
● Diffuse reflective sensing method, sensing angle 30~40° cone angle
● Input voltage DC 5V~24V, response time ≤500ms
● Adopted PC V0 fireproof material, IP67 waterproof rating
● Light source type is infrared, photosensitive area 1.2*5mm
● Response time 20us, response wavelength range 1~5µm
● Operating temperature -40~60℃. Dark resistance 0.2~2.0MΩ
● Infrared photoconductive sensor for flame detection, high temperature detection, spectral analysis
● Output types are high and low level, NPN, relay optional
● Passive infrared measurement, sensing distance within 7 meters
● Delay time 5-300s adjustable, blocking time of about 1s
● Static current less than 200uA, operating voltage range 5-12V DC
● Adopt infrared measurement, can measure 0~1200℃ temperature
● Passive infrared measurement, output signal 4-20mA, RS485 optional
● Accuracy ±2% or ±2.5℃, object distance ratio 20:1
● Made of 304 stainless steel, IP65 protection grade
● Using infrared sensing ranging, measuring distance 4~50cm
● High-precision I2C output, operating voltage 2.7~5V
● Product size 16.6*11*5.2mm, compact size
● The wiring terminal is made of insulating flame-retardant material
$53.54
Optical sensors are sensors that utilize the properties of light to detect and measure changes in objects or the environment. It converts optical signals into electrical signals by sensing the intensity, color, wavelength, reflection, refraction and other characteristics of light to achieve identification, positioning, detection or measurement of the target. Optical sensors have the advantages of non-contact, high sensitivity, fast response and high accuracy.
Types of Optical Sensors
Color Sensor: Color sensors are based on the principle of RGB or spectral analysis. By capturing the spectral information of light reflected from an object, color sensors are able to accurately identify and distinguish colors.
Fiber Optic Sensor: Fiber optic sensors transmit light signals from a light source through an optical fiber to a modulator, so that the measured parameter interacts with the light entering the modulation region, resulting in a change in the optical properties of the light (e.g., light intensity, wavelength, frequency, phase, polarization state, etc.). Then, the changed modulation signal source is transmitted to the light detector through optical fiber, and the measured parameter is obtained after demodulation.
Flame Sensor: Flame sensors can quickly determine the presence of a flame by detecting the infrared, ultraviolet or visible radiation produced by the flame.
Infrared (IR) Sensor: Infrared sensors utilize infrared radiation emitted or reflected from an object to sense the temperature or location of a target.
Image Sensor: Image sensors convert optical images into electrical or digital signals and are the core component of digital cameras, surveillance cameras and other devices.
Light Curtain/Light Curtain Sensor: Light curtain sensors consist of an emitter and a receiver that form one or more light curtains by emitting and receiving infrared light beams. When an object obscures the light curtain, the sensor responds immediately.
Photoelectric Sensor: Photoelectric sensors include a variety of types such as convective and reflective. They determine the presence, location or state of an object by detecting the presence or absence of light or changes in intensity.
Radiation Sensor: A radiation sensor is a sensor used to detect and measure electromagnetic radiation. It senses radiant energy in specific wavelength bands such as ultraviolet, visible, infrared, and even X-rays and gamma rays.
Ultraviolet (UV) Sensor: UV sensors work by sensing the intensity of ultraviolet light.
Features of Optical Sensors
Non-contact detection: Can realize detection without touching the object, reduce wear and tear, pollution, and prolong the life of the equipment.
High sensitivity and high precision: Able to detect very small changes, suitable for application scenarios requiring high precision.
Fast response speed: Responds quickly to changes, suitable for high-speed detection and real-time control systems.
Wide range of application: Can be used to measure distance, position, color, transparency, light intensity, surface defects, etc., a very wide range of application areas.
Strong anti-interference ability: Especially some structural package designs good optical sensors in a complex environment can still work stably.
Small size, easy to integrate: Most optical sensors are small and lightweight, easy to install in a variety of equipment and in narrow spaces.
Applications of Optical Sensors
Optical sensors are widely used in many fields due to their non-contact, high sensitivity, fast response, etc. They have become one of the indispensable core components for intelligence and automation in various industries.
Industrial automation manufacturing: Object detection and counting for presence/absence detection and automatic counting of products in assembly lines. Accurately sensing the position or offset of mechanical parts to improve automation accuracy. Identify product surface defects, color differences or transparency inconsistencies.
Transportation: Automatic braking and collision avoidance system detects obstacles ahead through optical sensors for active safety. Traffic flow monitors parameters such as number of vehicles, speed and emissions.
Security & Smart Home: Sensing human movement through infrared/laser optical sensors in areas such as doors and windows. Automatically senses light intensity or human activity to intelligently turn on lighting.
Agricultural monitoring: Monitor light intensity and spectrum required for plant growth.