Deep Dive in Figure 02 New Features: Human-Like Dexterity, Enhanced Torque || Figure 02 Trailer

Figure Robot or Figure 02 Robot: Enhanced Torque, Human-Like Dexterity, New Color and More Figure 02 Update: High Torque Actuators, Improved Dexterity and More Breaking Down Figure 02: Superior Torque, Range of Motion, and More Welcome to an in-depth look at Figure Inc.’s latest breakthrough in robotics - the Figure 02. In this video, we’ll be “Breaking Down Figure 02 Robot: Superior Torque, Range of Motion, and More.“ Discover how Figure 02 Robot surpasses its predecessor with advanced features and state-of-the-art technology. Figure Robot Inc. has just released a trailer for their latest robot update, the Figure 02 Robot, which comes with several notable enhancements over its predecessor, Figure 01 Robot. Visually, Figure 02 sports a new color scheme, marking a distinct change from Figure 01’s design. However, the most significant improvements lie in its actuators and their capabilities. Figure Robot One of the key upgrades is in the actuators, which now have a torque of 150Nm, significantly boosting the robot’s payload capacity to over 20kg, surpassing Figure 01. The knee joint actuator offers a range of motion of 135 degrees, while the actuator at the waist or pelvic region extends to 195 degrees. Figure Robot, These ranges of motion are impressive when compared to human joints, providing the robot with enhanced flexibility and functional versatility. For instance, a human knee typically has a range of motion up to 155 degrees, and the human waist has about 90 degrees, making Figure 02’s capabilities quite advanced for a robot. Figure Robot, Additionally, Figure 02’s hands exhibit improved dexterity, with smoother and more human-like finger movements compared to Figure 01. This advancement in finger dexterity is crucial for tasks that require precision and delicate handling, making Figure 02 more adept at performing complex tasks in various environments. The new 150Nm actuator will also enhance Figure 02’s walking speed, exceeding the achieved by Figure 01. This improvement in actuator power translates to faster and more efficient movement, enabling the robot to navigate and perform tasks more swiftly. The trailer concludes by confirming that Figure 02, like its predecessor, is electric. This means it uses electric actuators, which offer several advantages. Electric actuators provide precise control, are generally quieter, and have a higher efficiency compared to their hydraulic or pneumatic counterparts. They also allow for easier integration with the robot’s control systems, making the overall operation more seamless and reliable. A notable advantage of electric actuators is their low maintenance. Electric actuators require less maintenance because they have fewer moving parts and do not rely on fluid power sources. This advantage was a key reason Boston Dynamics decided to abandon the Atlas HD, which used hydraulic actuators. The hydraulic systems were expensive to maintain, produced a lot of noise, and were prone to leaks. Consequently, Boston Dynamics transitioned to using electric actuators in their new Atlas robot, benefiting from reduced maintenance needs and improved operational efficiency. Join us as we dive deep into the technical marvels of Figure 02 and explore how these enhancements are setting new standards in the world of robotics. Don’t forget to like, comment, and subscribe for more updates on cutting-edge technology and innovations! **Keywords:** Figure 02, Figure Inc., robotics, torque, range of motion, actuators, humanoid robot, electric actuators, robotics advancements, robot dexterity, Boston Dynamics, Atlas robot, technology innovations, robot maintenance, cutting-edge technology. **Related Videos:** - Evolution of Robotics: From Figure 01 to Figure 02 - How Electric Actuators Are Revolutionizing Robotics - The Future of Humanoid Robots: Trends and Predictions Thank you for watching and stay tuned for more exciting content!