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3D ToF Sensor FAQ


The SDK can support multi-camera work together, use 2pcs CS30 in Jetson Nano board ,can output a 180° FoV depth data by image stitching.


SSH Account: root@ Password: rockchip 1. vi /etc/network/interfaces 2, Enter the file editing, press the letter I key, the code can be edited See Modify to the desired address 3, after editing, press ESC key, Enter :wq to exit the file editing. 4. Restart the machine


WHAT IS A TIME OF LIGHT LIDAR SENSOR? A ToF LiDAR sensor is a type of LiDAR (Light Detection and Ranging) sensor that uses ToF technology to measure the distance between the sensor and the object it is pointed at. It works by emitting a pulse of light, usually in the form of a laser beam, and measuring the time it takes for the light to travel to the object and bounce back to the sensor. This time measurement can be converted into distance measurement using the speed of light.  ToF LiDAR sensors are commonly used in a variety of applications such as robotics, autonomous vehicles, mapping, and surveying. They offer several advantages over other types of LiDAR sensors, such as higher accuracy, faster scanning speed, and lower power consumption. They are also smaller in size and less expensive, making them ideal for use in portable and cost-sensitive applications.


1. High accuracy: ToF sensors can provide highly accurate distance measurements, with resolutions in the millimeter range.  2. Speed: ToF sensors can measure distance and capture data very quickly, which makes them ideal for real-time applications.  3. Low power consumption: ToF sensors require very little power to operate, making them ideal for battery-powered devices.  4. Suitable for various lighting conditions: ToF sensors can work in various lighting conditions, including bright sunlight and complete darkness.  5. Small size: ToF sensors can be designed to be very small and lightweight, making them ideal for use in portable devices and wearables.  6. Multi-purpose: ToF sensors can be used for a variety of applications, including depth sensing, gesture recognition, and object tracking.  7. Cost-effective: With the advancements in technology and mass production, ToF sensors have become more affordable and cost-effective.


1. Indoor Product CS30: Tailored for indoor applications, our CS30 product boasts wide-angle and RGBD fusion capabilities. This means it can provide extensive coverage and simultaneously capture color imagery and depth data, enabling comprehensive and accurate scene perception in indoor environments. For applications requiring indoor 3D perception, CS30 is an excellent choice. 2. Outdoor Product CS40Pro: Designed for outdoor scenarios, our CS40Pro product features an industrial interface, utilizes PToF technology, and supports Gigabit Ethernet transmission. This enables it to operate in harsher environmental conditions with enhanced resistance to interference and greater stability. In addition, we provide extensive technical support for our ToF 3D cameras, including GUI SDKs, ROS, Python, and more. This facilitates customized development and integration according to users' specific requirements. Our products not only cater to diverse indoor and outdoor needs but also offer rich technical support and customizable features to meet the demands of various application scenarios. Therefore, whether it's indoor or outdoor applications, we have suitable products and solutions for you.

Where are ToF sensors used?

here are numerous application scenarios for Time of Flight (ToF) sensors, including: 1.Depth sensing: ToF sensors can be used for depth sensing applications, such as 3D scanning, mapping, and measurement. 2.Gesture recognition: ToF sensors can detect hand and body movements, making them ideal for gesture recognition applications in smart homes, gaming, and other interactive devices. 3.Robotics and automation: ToF sensors can be used in robotics and automation for obstacle avoidance, navigation, and localization. 4.Automotive industry: ToF sensors can be used in advanced driver-assistance systems (ADAS) for collision avoidance, adaptive cruise control, and other safety features. 5.Augmented and virtual reality: ToF sensors can be used to create more realistic and immersive augmented and virtual reality experiences by accurately tracking the movement of objects and people. 6.Healthcare: ToF sensors can be used for non-contact vital sign monitoring, fall detection, and other healthcare applications. 7.Security and surveillance: ToF sensors can be used for people counting, occupancy detection, and other security and surveillance applications. 8.Drones and robots: ToF sensors can be used in drones and robots for obstacle avoidance, navigation, and positioning. These are just a few examples of the many application scenarios for ToF sensors, and their versatility makes them suitable for many different industries and use cases.