Core Viewpoint - The article emphasizes the importance of high-precision, high-flexibility, and high-speed automation in key industries such as precision manufacturing and electronic assembly, highlighting the advancements in vibration suppression technology that enhance production capacity and product quality while reducing material waste [1][5]. Vibration Suppression Technology - The new vibration suppression algorithm significantly reduces vibration during the startup phase, optimizing vibration amplitude by up to 90% across XYZ axes [2]. - Positioning error during the stopping phase is improved by up to 96%, eliminating the need for secondary adjustments [2]. - Stability under different loads is enhanced, with vibration amplitude fluctuations reduced to ≤5% when switching between 5kg and 10kg loads, compared to over 40% previously [2][8]. - The response speed from static to stable state is improved by 16% [2]. Zero Scrap Assembly Practices - In precision assembly scenarios, especially for fragile electronic components, the stability of robot startup and stopping is critical, with requirements reaching the micron level [3][5]. - The optimized vibration suppression technology achieves a maximum vibration amplitude of around 0.05mm during startup and maintains a positioning error of less than 0.02mm, thus preventing economic losses and improving product qualification rates [5]. Flexible Efficiency in Manufacturing - The article discusses the shift from rigid efficiency to flexible efficiency in industrial manufacturing, particularly in sectors like automotive electronics and medical devices, where production characteristics include small batches and diverse products [6]. - The new technology allows for better responsiveness to load changes, maintaining production efficiency and product quality, particularly in mixed-line production scenarios [6][8]. Quality and Efficiency Synergy - The implementation of vibration suppression technology leads to faster response times in visual-assisted assembly processes, increasing hourly production capacity by approximately 10% without changing camera parameters [9][11]. - The reduction in vibration enhances the stability of camera operations, improving image clarity and precision in component alignment, thus decreasing rework rates caused by poor visual recognition [11]. Future Outlook - The company aims to continue innovating in the field of general-purpose intelligent robotics, focusing on customer needs and leveraging breakthrough technologies to create competitive advantages in quality, ultimately supporting the upgrade of industrial manufacturing [11].