Product Description
Beckhoff manufactures the AM3022-0E40-0000 as part of the AM Servo Motor Series and features a rated torque of 0.70 Nm with an M23 connection. This motor has a peak current of 13.7 A and convection cooling. The AM3022-0E40-0000 motor is a synchronous servomotor featuring a standstill torque of 0.87 Nm and a peak torque of 3.15 Nm. It is part of the AM Servo Motor Series from Beckhoff and offers CE, cURus, and EAC approvals while delivering a rated speed of 8000 min^-1. The motor's ability to produce a standstill torque of 0.87 Nm is a testament to its robust design and high-quality components. The significance of standstill torque lies in its ability to measure the maximum torque that the motor can generate while stationary.
The motor's peak torque of 3.15 Nm is equally impressive, as it indicates the maximum torque that the motor can produce for a short duration. The rated speed of 8000 min^-1 is another important characteristic of the AM3022-0E40-0000 servo motor. This speed is the rotational velocity at which the motor is designed to operate continuously without overheating or damage. The ability of the motor to maintain such a high rated speed makes it suitable for applications that require rapid and precise movements, such as in pick-and-place robots or automated assembly lines. The rated power of 0.59 kW measures the motor's ability to convert electrical energy into mechanical energy. This power rating is significant because it determines the motor's efficiency and performance.
The motor's peak current of 13.7 A is the maximum current that the motor can draw from the power supply for a short period. This current is typically required during startup or when the motor is subjected to a sudden increase in load. The ability of the motor to handle such a high peak current ensures its reliability and durability in demanding applications. The torque constant of 0.32 Nm/A measures the motor's ability to convert current into torque. This constant is important because it determines the motor's responsiveness and controllability. The higher the torque constant, the more torque the motor can produce for a given current, resulting in faster acceleration and deceleration.