This added feature ensures that the motor shaft remains stationary when power is removed, preventing unwanted movement in applications requiring precise position holding. The motor maintains the compact 1.7-inch (approximately 42 mm) square frame size typical of NEMA 17 motors, making it suitable for applications where both space and precision are critical.
Key Features:
Integrated Electromagnetic Brake: Provides reliable holding torque when power is off, ensuring the motor shaft remains in position.Compact Frame Size: Retains the NEMA 17 standard 1.7-inch (42 mm) square frame, allowing for easy integration into existing designs.High Torque and Precision: Offers precise motion control and substantial torque, making it ideal for tasks requiring accuracy and reliability.Microstepping Capability: Supports microstepping for smoother motion and enhanced resolution.Advantages:Position Holding:
Reliable Shaft Locking: The electromagnetic brake locks the motor shaft when not powered, preventing unintentional movement or slippage.Enhanced Safety: Provides safety in applications where maintaining position is crucial, such as vertical loads or precision equipment.High Precision:
Accurate Control: Offers precise and repeatable positioning, essential for detailed and accurate tasks.Microstepping: Enhances smoothness and precision in motion, reducing mechanical noise and improving performance.Compact and Versatile Design:
Space-Saving: Maintains the compact size of a standard NEMA 17 motor, making it suitable for applications with limited space.Flexible Integration: Can be easily integrated into existing systems without requiring significant design modifications.Energy Efficiency:
Low Power Consumption: Operates efficiently, consuming less power during operation and minimizing energy usage when the brake is engaged.Thermal Management: Generates minimal heat, reducing cooling requirements and extending motor lifespan.Reliable Performance:
Consistent Torque Output: Provides stable performance under varying load conditions, ensuring reliability in demanding applications.Durability: Designed for long-term use, with robust construction that withstands operational stresses.Low Noise and Vibration:
Quiet Operation: Produces low noise levels, suitable for noise-sensitive environments such as medical or office settings.Minimal Vibration: Reduces vibration, enhancing performance in precision applications and minimizing wear on components.Cost-Effective Solution:
Affordable Braking System: Provides a cost-effective way to add braking functionality without the need for additional components or systems.Reduced System Costs: The integrated design can lead to savings in system design, assembly, and maintenance.