Product Description

Beckhoff manufactures the servo motor AM3022-0C40-0000. The motor's ability to position accurately is attributed to its resolver feedback mechanism. The analog position sensor resolver provides continuous rotor position data, enabling the servo controller to monitor and adjust the motor's motion in real time. This closed-loop control system ensures that the motor's shaft rotates to the desired position precisely. The AM3022-0C40-0000 is engineered for efficiency and reliability. Its aluminum die-cast construction balances strength and thermal performance, allowing for effective heat dissipation during operation. The motor's IP54 protection rating safeguards it against dust and water ingress, making it suitable for deployment in various industrial environments.

The motor's thermal operating range, from +5°C to +40°C ensures consistent performance across a wide range of ambient temperatures. This capability is crucial for maintaining the accuracy and longevity of the motor in demanding industrial settings. The AM3022-0C40-0000's electrical characteristics are fundamental to its operation. The nominal voltage of 480 V AC signifies the motor's designed operating voltage, while the standstill torque of 0.84 Nm represents the maximum torque the motor can produce at rest. The rated torque of 0.68 Nm indicates the continuous torque output at the rated speed of 8000 min^-1.

The motor's peak current of 7.0 A reflects the maximum current it can handle for brief durations, enabling it to generate high torque for acceleration or overcoming transient loads. The torque constant of 0.61 Nm/A defines the relationship between the motor's torque output and the applied current, highlighting its efficiency in converting electrical energy into mechanical motion. The rotor moment of inertia of 0.161 kgcm² is a critical parameter influencing the motor's dynamic response. A lower moment of inertia allows for faster acceleration and deceleration, enhancing the motor's agility in motion control tasks. The M23 connection method provides a secure and reliable electrical power and feedback signal interface.