Product Description

The MSS200B-008-B1N-NN synchronous motor lives up to the reputation of Bosch Rexroth Indramat's renowned MSS Synchronous IndraDyn H Motors series. With a nominal speed of 800 rpm, it efficiently drives applications requiring precise, medium-speed motion control. This motor provides engineers with solid torque output, even under heavy loads. A continuous torque of 65 Nm allows for reliable starts from standstill. An impressive theoretical maximum torque of 160 Nm further underscores its ability to handle demanding industrial tasks. Consistent performance is ensured through robust current handling as well, with a usable peak of 42.5 A accommodating sudden load increases.

Weighing in at 16 kg, the hefty stator ensures stable, vibration-free operation. Combined with a rated continuous current that permits continuous-duty power, the MSS200B-008-B1N-NN performs flawlessly over long periods. Its sizable rotor of 7.5 kg lends further inertial stability for precision tasks. Thermal management is engineered for continuous-duty demands, thanks to design elements like an extended 120-minute time constant. Reliability stems not just from raw capabilities but from quality construction and materials. Wound stators and rotors feature premium gauges and insulation to minimize losses and withstand punishing environments. Combined with conservative parameters like an allowable maximum speed of 1200 rpm, product lifespans extend far beyond lesser models' capabilities or MTBF claims.

Tough enough for industrial usage, this motor maintains exceptional accuracy even under load. Torque and speed regulation remain tightly controlled through extensive parameterization. With no gearbox to introduce lash or backlash, motion retains high resolution without oscillations or jitter, which is important for delicate automation tasks. In demanding scenarios like repetitive part handling or aggressive CNC cutting, the MSS200B-008-B1N-NN proves its merit. It handles torque spikes and overloads in stride through generous thermal headroom and electrical reserves. Compared to belt-driven alternatives, operational smoothness increases while service needs decrease due to fewer wear-prone interfaces.