MS2N03-D0BYN-CMSK1-NNNNN-NN
The Bosch Rexroth Indramat MS2N03-D0BYN-CMSK1-NNNNN-NN motor, part of the MS2N Synchronous Servo Motors series, is engineered for exceptional performance and durability in automated applications. Featuring a multiturn absolute encoder that accurately monitors shaft positioning and a reliable holding brakes system for enhanced stopping control, the motor is designed to meet the rigorous demands of precision machinery. Its unique winding, designated as BY, supports efficient electrical performance, ensuring optimal operational efficiency and reliability in industrial environments.
Tailored for advanced operational control, this servo motor boasts noteworthy technical specifications including a rated speed of 5700 min-1 and a maximum performance potential of 9000 min-1. The inclusion of a shaft sealing ring safeguards critical internal components while the self-cooling mode facilitates effective heat dissipation during continuous operation. Additionally, the design incorporates a balanced shaft with a halfway key and robust standard bearings to manage both axial and radial loads, thereby minimizing friction and wear. The standard varnish coating in RAL 9005 black further enhances the motor’s resistance to corrosion and physical degradation, ensuring longevity even under harsh conditions.
Emphasizing installation simplicity and operational effectiveness, the motor’s design features a rotatable electrical connection via an M23 Single-Cable system. The integration of key elements such as the multiturn encoder enables precise control and feedback, which is crucial for environments demanding exact positioning and cycle integrity. With its proven combination of durability, thermal management, and robust mechanical protection, this servo motor is ideally suited for demanding industrial applications that require both reliable performance and ease of integration. The overall engineering of the MS2N03-D0BYN-CMSK1-NNNNN-NN motor supports operational excellence and offers tangible benefits in automation and precision control.
