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YDLIDAR TEA is a series of 2D LiDAR (hereinafter referred to as TEA) developed by EAI team. Based on ToF principle, TEA is based on the single-line scanning design and can output 30k point cloud data per second. It adopts 905nm infrared excitation light, with the self-developed signal processing algorithm, to meet the requirement of outdoor application scenarios.
TEA also adopts industrial interface design to transmit point cloud data through network protocol, and the dustproof and waterproof of the whole device reaches IP65 level. TEA structure design is compact, easy to integrate, and provides a complete integrated development interface, widely used in robot navigation and obstacle avoidance, environmental scanning and mapping, industrial AGV, assisted driving and other fields.




Using ToF (Time of Flight) time-of-flight ranging technology, the distance is measured according to the round-trip time difference of laser pulses. The accuracy of Lidar ranging will not change with the distance, and the detection of long-distance objects



Strong ability to resist ambient light interference, meeting the needs of outdoor application scenarios


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YDLIDAR TEA is a series of 2D LiDAR (hereinafter referred to as TEA) developed by EAI team. Based on ToF principle, TEA is based on the single-line scanning design and can output 30k point cloud data per second. It adopts 905nm infrared excitation light, with the self-developed signal processing algorithm, to meet the requirement of outdoor application scenarios.
TEA also adopts industrial interface design to transmit point cloud data through network protocol, and the dustproof and waterproof of the whole device reaches IP65 level. TEA structure design is compact, easy to integrate, and provides a complete integrated development interface, widely used in robot navigation and obstacle avoidance, environmental scanning and mapping, industrial AGV, assisted driving and other fields.




Using ToF (Time of Flight) time-of-flight ranging technology, the distance is measured according to the round-trip time difference of laser pulses. The accuracy of Lidar ranging will not change with the distance, and the detection of long-distance objects



Strong ability to resist ambient light interference, meeting the needs of outdoor application scenarios


No reviews yet. Be the first to share your experience!
Fill out the form below and our team will get back to you with bulk pricing.
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