Motor Type:AC Servo Motor
Model Number:HG-KN73BJ-S100
Max Power Output:1.0kW
Rated Speed:2000rpm
Torque Capacity:40Nm
Resolution:1.7 arcsec
Operating Voltage:230V
Inertia Matched:Yes
Enclosure Type:IP54
Cooling Method:Fan-Cooled
Communication Protocol:EtherCAT
Motor Dimensions:Diameter 100mm x Length 140mm
Weight:2.5kg
The Mitsubishi HG-KN73BJ-S100 Servo Motor is designed for precision control and efficiency in industrial automation systems. Its compact size and high torque output make it suitable for applications where space is limited but performance is crucial. The motor operates on a robust 230V AC supply, ensuring reliable operation across various industrial environments.
Equipped with advanced control protocols like EtherCAT, this servo motor integrates seamlessly with modern control systems, offering fast response times and enhanced accuracy. Its natural air cooling mechanism ensures continuous operation without overheating, even under heavy load conditions.
With a maximum speed of 3,000 revolutions per minute (rpm), the Mitsubishi HG-KN73BJ-S100 is capable of delivering swift and precise movements, making it ideal for tasks requiring quick adjustments or high-speed operation. Its IP54 protection class guarantees dust and splashing water resistance, ensuring durability and longevity in industrial settings.
Crafted from high-quality materials, this servo motor is built to withstand harsh conditions typically encountered in manufacturing processes. The combination of its compact design, efficient cooling system, and robust construction makes it a top choice for enhancing productivity and reducing downtime in automated production lines.
Incorporating the Mitsubishi HG-KN73BJ-S100 Servo Motor into your industrial automation setup will significantly improve the overall efficiency and reliability of your operations. Whether you’re looking to optimize existing systems or integrate new machinery, this motor provides a solid foundation for achieving high-performance outcomes in your industry.
There are no reviews yet.