SENSE AND AVOID: The world’s smallest and lightest scanning LiDAR sensor. The LightWare SF45 gives "eyes" to high-cost unmanned autonomous vehicles (UAVs) and machines, lowering the risk of catastrophe and the safe delivery of payloads.
The SF000/B is a 50m, ultra-small and light laser rangefinder designed for size and weight constrained applications. It uses a Time-Of-Flight system to make very fast, accurate distance and speed measurements.
The LightWare SF30/D is a high speed, light weight laser rangefinder. Weighing just 35g and with range of up to 200m and 20,000 readings per second, it is ideal for altimeter, mapping and obstacle detection in UAVs, drones and robotic vehicles.
The LightWare SF40/C is a long range (0-100m) rotating laser scanner (LiDAR) designed specifically to provide UAVs with SLAM intelligence.
MEASURABLE PRECISION: A lightweight laser altimeter designed specifically for use on UAVs. The SF11 provides accurate and fast altitude (AGL) measuring capabilities. Ideal for automated landings, precise hovering, and terrain following.
The LightWare SF30/B is a high speed, light weight laser rangefinder for mapping and obstacle detection by robotic vehicles such as UAVs with a range up to 50m.
The LightWare SF23/B is a very low power LiDAR that can be used in energy critical applications where batteries or solar cells are used. Weighing 10g, it can run from voltages as low as 3.2V and has an average current consumption of less than 2mA when taking one reading per second. The measuring range of the SF23/B is 0.2 to 50 meters, and features a serial interface.
The LightWare SF22/C is a LiDAR API development kit that can be used to test out new applications before investing in more expensive devices. The measuring range is from 0.2m to 100m and is Class 1M eye safe. It is a small form factor, general purpose laser sensor that measures the distance to objects by ToF (time of flight) of a laser flash 10 to 100 times a second. The SF22/C can interface using serial, I2C and USB, and is tolerant to changes in background lighting conditions, wind and noise.