Product Description
The MS2N04-B0BNN-CMSH1-NNNNN-GE080N2020BN-NN is a groundbreaking servo motor from Bosch Rexroth's advanced MS2N series. The device is created to provide sheer precision and reliability in tedious manufacturing environments. This motor is created buzz for its robust construction, efficiency, and easy integration into different machines. It comes in motor size 04, making it ideal for high-performance tasks in restricted spaces. Moreover, its B-length design brings power output and compactness together to provide the best results. Additionally, the motor's low rotor inertia (0) offers rapid acceleration and deceleration in challenging situations. dynamic applications. It is equipped with 3,000 rpm winding system (BN) that offers speed and torque for different industrial uses. On the other hand, it's self-cooling mechanism (N) prevents overheating, eliminates the need for external cooling systems, and saves maintenance efforts.
It's 20-bit digital encoder with ACURO link technology and SIL 2 (C) that offers exceptional accuracy and safety, putting you in the driving seat. The motor's multiturn absolute design (M) provides 4,096 revolutions for accurate precise positioning. The model uses M23 single-cable connection (S) to simplify wiring and enhance flexibility, while the smooth shaft without the seal (H) offers efficient operation in different environments. The holding brake (1) maintains stability in industrial tasks where positioning is necessary.
Bosch complies with IM B5/IM 3001 construction standards by incorporating a PT1000 sensor (N) in the motor for continuous temperature monitoring at all times. It's standard bearings (N) ensure longevity whereas the standard coating (N) and lack of design modifications (N) offer additional protection against wear and streamline the motor's integration into diverse applications respectively. It comes with a flange mounting system (N). The MS2N04-B0BNN-CMSH1-NNNNN-GE080N2020BN-NN is the suitable option for industries where precision, reliability, and efficiency are required in high-performance tasks.