Product Description

Beckhoff Automation manufactures the AM8032-1E21-0000 servo motor. The AM8032-1E21-0000 is a convection-cooled servo motor with a standstill torque of 2.37 Nm. It is a permanent magnet-excited three-phase synchronous motor with a torque constant of 0.80 Nm/A. The standstill torque, a critical parameter, represents the maximum torque the motor can deliver at zero speed, which is essential for applications requiring high starting or holding power. The torque constant, on the other hand, indicates the proportionality between the current flowing through the motor windings and the output torque, reflecting the motor's efficiency in converting electrical energy into mechanical power. A higher torque constant signifies that the motor can generate more torque for a given current, enhancing its dynamic response and power efficiency.

The AM8032-1E21-0000 servo motor operates at a rated speed of 6000 min^-1. This speed, crucial for dynamic applications, signifies the motor's rotational velocity under normal operating conditions, balancing speed and torque to meet the demands of the application. The motor's ability to maintain this speed while delivering the required torque ensures consistent performance and precise motion control. With a rated power of 1.38 kW, the AM8032-1E21-0000 servo motor is designed for applications requiring substantial power output. This power rating, a key indicator of the motor's work capacity, reflects its ability to deliver the necessary torque at the rated speed, ensuring efficient operation even in demanding applications.

The AM8032-1E21-0000 servo motor features a connection technology with an Itec® plug. This connector type, known for its robustness and reliability, provides a secure and efficient means of power transmission to the motor, ensuring uninterrupted operation even in environments with vibrations or mechanical stress. The servo motor supports ambient temperatures from +5 to +40 °C, indicating its suitability for a wide range of operating environments. This temperature range reflects the motor's ability to function reliably without performance degradation, ensuring its versatility and adaptability to different applications and climates.