Product Description

The MAC025A-0-WS-2-E/040-A-0 magnet motor incorporates advanced engineering to deliver high-speed operation and smooth performance even under heavy loads. Developed by Bosch Rexroth Indramat, it is part of their renowned MAC series optimized for industrial applications demanding precision and reliability. With a side A power connector and brushless configuration, it provides maintenance-free operation for minimized downtime. Its high cyclic load capacity resulting from focused design meets the needs of applications with intensive duty cycles. This ability to handle repetitive torque demands time after time extends the working life of the motor. Moreover, a standard mounting encoder on the rotor integrates precise feedback to enable precise speed and position control for demanding processes. Control is facilitated through triple stator windings regulated by the rotor position.

Conditioned by the magnetic flux, torque is accurately controlled regardless of load variations or speed. Together with current control via the triple windings, this motor maintains smooth operation even at high velocities. As a result, it proves ideal for servo drives and CNC machine tools requiring extensive speed control with minimal fluctuations. Brushless technology in the MAC025A-0-WS-2-E/040-A-0 eliminates the need for regular brush maintenance and replacement, lowering operating costs. Meanwhile, its robust yet compact design occupies less space in tight machinery. Protection class IP65 further enables resistance to dust and water for reliability in industrial environments.

High resolution feedback from the standard encoder integrated into the motor enhances control precision. Applications benefit from the accurate speed and position monitoring it provides. Advanced filtering and control algorithms then process this real-time feedback to optimize motion profiles. Conditional on magnetic flux, torque output can be depended on for process consistency. Systems gain confidence in utilizing the motor’s full dynamic abilities to maximize throughput without risk of under-torquing. Applicable industries thus include automotive manufacturing and other sectors where dimensional correctness is critical.