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Youibot proposed an autonomous mobile robot (AMR) solution for the semiconductor industry, aiming to connect the material flow and information flow between different processes, realizing automatic transfer or automatic loading and unloading of materials in every workshop and manufacturing equipment. These semiconductor robots can solve the problems of low efficiency and low product yield caused by manual operation.
The O series of collaborative robots are custom designed for vaious materials handling scenarios in the semiconductor industry.
Due to smooth and contamination-resistant surfaces, the semiconductor robot meets a high cleanliness level. It minimizes human intervention, thus reducing the risk of contamination and increasing the product yield rate.
Autonomous mobile robots can run uninterruptedly for a set period of time. It enables automatic transfer or automatic loading and unloading of materials and intelligently navigates through complex environments without the need for human intervention or fixed tracks. This ensures a smooth production process to increase capacity.
The autonomous mobile robot, equipped with advanced vision sensors and an end gripper with strong control, grasps the FOUP PODs precisely, reducing direct contact with the wafers and minimizing vibration effects on the raw material.
Automated handling replaces some of the labor requirements. It not only reduces long-term labor expenses but also greatly avoids manual errors. Such cost reductions and efficiency enhancements help to realize a quick return on investment.
The integrated autonomous robot control system seamlessly integrates the robot's upper system and various end-sensing control systems into the internal operating system, reducing the cost and time of switching between multiple systems during deployment. Workflow and logging make all operations traceable and reduce management hassles.
The autonomous mobile robot's built-in SLAM algorithms help it locate its position and direction on a map to create a logical route of movement. It can also safely avoid obstacles in complex environments to safeguard personnel and equipment.