The Bosch Rexroth Indramat MS2N03-D0BYN-CSDK0-NNANN-NN from the MS2N Synchronous Servo Motors series delivers precision motion control with a maximum speed (electrical) of 9000 1/min and a maximum current of 14.5 A. Its thermal design supports a maximum torque at 20 °C (cold) of 7.4 Nm and a maximum torque at 100 K (warm) of 6.8 Nm, ensuring robust peak performance under varying load conditions. The motor’s rated power – 100 K of 0.4 kW is paired with a rated speed – 100 K of 5700 1/min to balance continuous operation and efficiency. With a rated current – 100 K of 1.39 A, the MS2N03 model optimizes energy use without compromising torque delivery.
In low-speed or holding applications, the servo sustains a standstill torque – 60 K of 1.15 Nm at a standstill current – 60 K of 2.07 A, facilitating secure positioning and rapid response. The distinct torque constants across 20 °C and 100 K operating points allow precise tuning of control loops for minimal overshoot. Compact and fanless, the motor’s synchronous operation yields excellent dynamic response, enabling accurate commutation at full electrical speed. Advanced winding insulation and optimized thermal pathways maintain stability during continuous duty cycles at rated and peak thresholds.
Engineered for demanding industrial environments, this MS2N servo motor excels in assembly automation, indexing tables, and robotics where high torque density and repeatability are critical. Its standardized mounting flanges and single-turn encoder interface simplify integration into modular drive systems. The combination of high peak torque, low standstill losses, and efficient current consumption make this motor a reliable choice for both new installations and retrofit upgrades.
Maximum current
14.5 A
Maximum speed (electrical)
9000 1/min
Maximum torque 100K (warm)
6.8 Nm
Maximum torque 20 degrees C (cold)
7.4 Nm
Rated current - 100K
1.39 A
Rated power - 100K
0.4 kW
Rated speed - 100K
5700 1/min
Rated torque - 100K
0.68 Nm
Standstill current - 60K
2.07 A
Standstill torque - 60K
1.15 Nm