T51

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All-solid-state 3D depth-imaging LiDAR—ushering in the 3D era of machine vision.

Overview

From “line” to “surface”—a comprehensive, three-dimensional perception.

The T51 breaks through the limitation of traditional 2D LiDAR, which can only scan in a single plane. By leveraging Time-of-Flight (ToF) array technology, it can capture three-dimensional depth information of all objects within its field of view in a single shot, effectively detecting overhead obstacles (such as shelf beams) and low-profile objects, thereby eliminating vertical blind spots during AGV operation.

Pure solid-state design for ultimate stability and durability.

It features no mechanical rotating parts internally, completely eliminating issues related to mechanical wear and vibration-induced failure. This all-solid-state design ensures an exceptionally long service life and extremely high reliability, making it particularly well-suited for installation on forklifts, AGVs, or robotic arms that experience frequent vibrations.

Compact size, the ideal choice for built-in integration.

The T51 boasts an astonishingly compact size (97×47×23mm)—just half the size of a typical smartphone. It can be effortlessly integrated into the forks of unmanned forklifts, the end effector of robotic arms, or tight spaces within equipment, enabling powerful 3D vision capabilities without altering the device’s external appearance.

Core features

Imaging technology: 3D ToF (Time-of-Flight)
Measurement range: 0.05 m ~ 3 m (10% reflectance)
Field of View (FOV): 72° (horizontal) × 55° (vertical)
Resolution: 320 × 240 pixels
Frame rate: 15 fps
Measurement accuracy: ±2 cm (0.15 m ~ 1 m)
Obstacle avoidance function: Supports 16 groups of 3D area protection.
Data interface: 100M Ethernet (TCP/IP)

It’s not just obstacle avoidance—it’s the robot’s “3D慧眼.”

T51 fills the gap in stereoscopic spatial perception that traditional 2D sensors have left behind. In Autonomous forklift In the application, it is installed on the fork tips or the vehicle roof, precisely identifying pallet hole positions and overhead obstacles; in Service robot Among them, it can effectively detect small objects such as table legs and glass doors; in Logistics Inspection Among them, it can quickly obtain information about the volume and location of packages. The T51 enables machines to understand the three-dimensional world, making their actions smarter.

The Power of Pure Solid-State 3D Perception

Say goodbye to “blind men touching an elephant” and achieve true three-dimensional protection.

Traditional 2D LiDAR can only scan a single horizontal plane, often proving powerless against obstacles that are either above or below the scanning plane—such as overhead shelf beams or low pallets on the ground—thus allowing “fish to slip through the net” and leading to collisions.

The T51 outputs a high-density 3D point cloud, creating a conical sensing space measuring 72° × 55°. Whether it’s suspended objects in the air or small obstacles on the ground, as long as they enter this three-dimensional space, they will be precisely detected, providing mobile robots with comprehensive, dead-zone-free safety protection.

Dual data—depth and grayscale—empower intelligent algorithms.

T51 not only provides distance information for each pixel (depth map), but also simultaneously outputs reflectance information of the object’s surface (infrared grayscale image).

This wealth of data dimensions enables upper-level algorithms not only to determine “what’s there” but also to assist in identifying “what it is.” By leveraging this data, you can develop advanced vision-based functions such as **pallet hole recognition, human pose analysis, and cargo volume calculation**, greatly expanding the application boundaries of sensors.

Custom 3D protection zones for precise alignment with the scene.

The T51 is equipped with a powerful area monitoring algorithm. Using the accompanying software, users can draw various regular or irregular three-dimensional protection zones in 3D space—such as cylindrical, conical, cubic, and other shapes.

Supports 16-zone switching, with each zone comprising 3 independent areas (alarm, deceleration, and stop). This means you can dynamically adjust the shape of the “safety guard” in real time based on the robot’s robotic arm posture or operating environment, ensuring safety while preventing false triggers.

Adaptive exposure, unafraid of complex lighting conditions.

Based on its unique adaptive automatic exposure technology, the T51 can adjust its sensitivity parameters in milliseconds according to changes in ambient light.

It boasts an anti-environmental-light capability of 10,000 lux, enabling it to deliver clear and stable depth images whether in dimly lit warehouse corners or by sunlit windows with scattered light. This high robustness makes it an ideal choice for machine vision applications in uncontrolled lighting environments.

YINTAILI All-round Services

SDK and Secondary Development Support

We provide a comprehensive C++/Python SDK and ROS driver package, supporting cross-platform development on Windows and Linux, enabling you to quickly integrate 3D vision capabilities.

Algorithm Customization Service

For the needs of identifying specific objects and measuring their volumes, our algorithm team can provide you with in-depth custom development services.

Fast Delivery Guarantee

Leveraging the strong production capacity of our Tianjin facility, we promise ample in-stock availability of standard products and rapid response to bulk orders, ensuring the smooth progress of your project.