Product description
LiDAR-based distance sensor for precise measurement up to approximately 12 meters. The sensor features low power consumption and a high update rate. Designed according to the ToF (Time of Flight) principle with optical and electronic algorithms for stable, accurate, and sensitive distance detection. Intended for integration into systems where fast and reliable distance data is required, such as autonomous robots, drones, obstacle detection, process automation, and other intelligent applications.
The sensor module supports both UART and I2C communication for easy connection to microcontrollers. The laser emission is within Class 1 safety classification, making the sensor suitable for use in environments where people are present.
Typical applications include accurate distance measurement in robotic platforms, level monitoring, collision avoidance systems, distance-triggered control, and other systems where fast response and repeatable performance are required.
In fixed installations where improved range and reduced susceptibility to interference are desired, a photoelectric reflector can be used, for example 41035948.
Specifications:
- Range: 0.1 to 12 m (at 90% reflectivity)
- Field of view: 2°
- Accuracy: approx. ±6 cm @ 0.1 to 6 m, ±1% @ 6 to 12 m
- Distance resolution: 1 cm
- Communication: UART, I2C
- Update rate: adjustable up to 1000 Hz
- Light source: VCSEL with center wavelength approx. 850 nm
- Ambient light immunity: up to 70,000 lux
- Laser safety class: Class 1
- Operating temperature: 0 °C to 60 °C
- Current consumption: 140 mA (max 200 mA)
- Supply voltage: 5 V
- Logic level: 3.3 V
- Included connection cable (2 pcs): 10 cm
- Dimensions: 42 x 15 x 16 mm
- Laser safety standard: IEC 60825-1 Class 1
- Weight: 5 g
