MS2N07-C1BRN-CMSH0-NNNNN-NN
The MS2N07-C1BRN-CMSH0-NNNNN-NN from Bosch Rexroth Indramat is part of the acclaimed MS2N Synchronous Servo Motors series. This servo motor is engineered for tasks that demand precision and reliability in automated systems. It features a winding value of 4,500 min and a Multiturn encoder design, ensuring that the motor performs with accurate feedback and control essential for dynamic applications. Its design is tailor made to support environments where precise rotational control is a necessity, making it a robust choice for motion control and servo applications in various industrial settings.
The detailed technical specifications of this servo motor distinguish it in the market. The motor is equipped with an M23 Single-Cable connection, turnable type electrical interface that supports effortless integration into modern control systems. The innovative encoder design leverages a multiturn mechanism to deliver precision, while a carefully engineered winding rated at 4,500 min permits continuous operation under demanding conditions. Additionally, the motor is deliberately Not Equipped with a holding brake, a design decision that supports streamlined operational dynamics and reduces mechanical complexity. The motor shaft is engineered to be Smooth, no shaft seal, improving mechanical efficiency while minimizing friction and wear.
Further highlighting its industrial utility, this servo motor is designed for compatibility with modern automation standards, where its robust electrical connection and encoder feedback afford seamless integration. The absence of a holding brake enhances its adaptability in systems that require dynamic speed adjustments and uninterrupted rotation. Durability is a key benefit, as the design promotes reliability and ease of maintenance, essential traits in rigorous industrial environments. In summary, the precise engineering and thoughtfully selected features of this servo motor contribute to improved performance, ensuring enhanced productivity and long-term operational reliability in sophisticated automation and control applications.
