Optische Sensoren
An optical sensor converts light rays into an electronic signal. The purpose of an optical sensor is to measure a physical quantity of light and, depending on the type of sensor, then translates it into a form that is readable by an integrated measuring device. Optical Sensors are used for contact-less detection, counting or positioning of parts. Optical sensors can be either internal or external. External sensors gather and transmit a required quantity of light, while internal sensors are most often used to measure the bends and other small changes in direction. Optical Sensors are available at Avaq Semiconductor. You could view the stock, price and datasheet PDF of Optical Sensors listed below.
Arten von Sensoren
- Audiosensoren
- Biometrische Sensoren
- Kapazitive Berührungssensoren
- Stromsensoren
- Umweltsensoren
- Durchflusssensoren
- Lineare Wegsensoren
- Flüssigkeitsstandsensoren
- Magnetsensoren
- Bewegungs- und Positionssensoren
- Optische Sensoren
- Drucksensor
- Annäherungssensoren
- Sensor-Hardware und Zubehör
- Temperatursensoren
- Vibrations- und Neigungssensoren
Banner Engineering
Long-range photoelectric sensor for industrial automation applications
Banner Engineering
Accurate Range Measurement Solution
Banner Engineering
Photoelectric Sensors Q4X Series: Laser Adjustable Field; Range: 100 mm; Input: 10-30 V dc; Output: 1 PNP/NPN with IO-Link Communication; 1 PNP; 4-pin M12 Integral QD
Banner Engineering
Durable construction ensures long-term operation and reduced maintenance costs
Banner Engineering
Photoelectric Sensors Q45 Series: Infrared Glass Fiber Optic; Range: Depends on Fiber; Input: 10-30 V dc; Output: Bipolar: 1 NPN; 1 PNP; 2 m (6.5 ft) cable
Banner Engineering
Cost-effective solution for industrial automation
Banner Engineering
Q series offers precise distance measurement up to meter
Banner Engineering
High accuracy sensing solution for industrial applications
Banner Engineering
Elevate your sensing capabilities with high accuracy and reliability
Banner Engineering
Photoelectric Sensors WORLD-BEAM QS18 Series: Laser Class 2; Horizntal; Range: 15 m; Input: 10-30 V dc; Output: Not Applicable; 150 mm (6 in) M12 Pigtail QD
Banner Engineering
Photoelectric Sensors Q60 Series: Adjust-Field Visable Red Univer Volt; Range: 200-1000 m; Input: 12-250 V dc or 24-250 V ac; Output: Electrocromechanical Relay (SPDT); 2 m (6.5 ft) Cable
Banner Engineering
Photoelectric Sensors Q60 Series: Adjust-Field Laser (Cls 1) Univ Volt; Range: 200-1400 mm; Input: 12-250 V dc or 24-250 V ac; Output: Electromechanical Relay (SPST); Micro-Style QD
Banner Engineering
Background Suppression Optical Sensor 5.906" (150mm) PNP - Dark-ON/Light-ON
Banner Engineering
Photoelectric Sensors WORLD-BEAM QS18 Series: Laser Class 2; Horizontal; Range: 15 m; Input: 10-30 V dc; Output: Not Applicable; M12 Integral QD
IDEC
Photoelectric Sensors SA2E Throught-Beam NPN 2M Cable
Banner Engineering
Cutting-edge radar solution for improved situational awarenes
Banner Engineering
Accurate detection and control of proximity with this high-quality radar sensor
Banner Engineering
Precise proximity detection with low power consumpti
FAQ
- What are Optical Sensors?
- Optical sensors are devices that use light to detect and measure physical properties or changes in their environment, converting optical signals into electrical signals for analysis.
- How do Optical Sensors work?
- Optical sensors use various principles, such as absorption, reflection, refraction, or interference of light, to measure changes in light intensity, color, or direction, which correspond to changes in the physical property being sensed.
- What are the main types of Optical Sensors?
- Photodetectors: Detect light intensity or presence. Photodiodes: Convert light into electrical current. Phototransistors: Amplify light signals. Color Sensors: Identify and measure colors. Proximity Sensors: Detect the presence or absence of an object. Ambient Light Sensors: Adjust display brightness based on ambient light.
- How do I choose the right Optical Sensor for my application?
- Consider factors like sensing range, accuracy, response time, environmental conditions, spectral sensitivity, and power consumption. Consult datasheets and manufacturer resources for guidance.