AKM21C-ANB2DB00
by Kollmorgen
The Kollmorgen AKM21C-ANB2DB00 is part of the AKM Synchronous Servo Motors series by Kollmorgen, engineered to deliver precise, reliable motion control in demanding industrial automation environments. This high-performance servo motor features a continuous torque of 0.79 Nm and a maximum speed of 5000 RPM, making it ideal for applications that require both steady force and rapid response. With a supply voltage of 320 Vdc and a rated current of 1.58 Arms, the AKM21C-ANB2DB00 serves as a versatile drive solution for machinery that demands consistent operation under variable loads. Its primary function is to enable accurate positioning and speed regulation in robots, CNC machines, and other automated systems.
In terms of technical specifications, the AKM21C-ANB2DB00 offers a rated torque of 0.48 Nm and a stall torque of 2.48 Nm, ensuring the capacity to overcome sudden load changes without sacrificing performance. The no-load speed is rated at 8000 RPM, supporting applications that require high idle rotation before load engagement. With a continuous power output of 0.041 kW, the motor balances efficiency with compact design. Unique features include an incremental encoder for high-resolution position feedback and insulation class A materials for thermal protection. The motor’s Class F insulation enhances temperature tolerance, allowing for sustained operation in environments up to 40 degrees C.
Additional attributes of the AKM21C-ANB2DB00 underscore its durability and compatibility with modern automation architectures. The motor’s specified ambient temperature rating of 40 degrees C ensures reliable performance in enclosed machinery and cabinet installations. A robust incremental encoder interface provides seamless integration with standard motion controllers, while the combination of Class A and Class F insulation schemes delivers a safety margin against thermal stress. By offering precise torque control, rapid acceleration, and dependable stall torque capability, the AKM21C-ANB2DB00 enhances throughput and reduces cycle times. This makes it an excellent choice for industrial applications where uptime, accuracy, and efficiency are paramount.
