The Bosch Rexroth Indramat MDD025C-N-100-N2G-040GC0 from the MDD Synchronous Motors series is a Motor for digital drive controllers engineered for precision and reliability. Its compact Motor Size 025 frame and Motor Length Code C ensure easy integration into confined machine modules, while the Plain shaft and Standard housing provide a robust mechanical interface. Equipped with Resolver feedback for high-resolution position sensing, this motor delivers a Continuous Torque at Standstill of 0.90 Nm. The design also features a Centering Diameter of 40 mm to simplify coupling alignment during installation.
Reliability is enhanced by Standard balancing, which minimizes vibration and supports smooth operation up to the Nominal Speed of 10000 min⁻¹. The unit includes a Shaft seal for protection against contaminants and a Connection Type: connecting cable with coupling unit that streamlines wiring on the factory floor. Orientation is standardized via the Connection Direction Side A, ensuring consistent terminal placement across installations. Additionally, the motor’s Shaft End is delivered in its Standard (without side B shaft end) configuration, facilitating direct coupling to gearboxes and driven loads.
Designed without a blocking brake, this motor maximizes energy efficiency and reduces maintenance complexity. The combination of compact dimensions, integrated feedback, and rugged passive features makes the MDD025C-N-100-N2G-040GC0 an ideal choice for digital drive systems in packaging, robotics, and CNC applications where space is at a premium and performance demands are high.
Balancing
Standard
Holding Brake
Without blocking brake
Centering Diameter
40 mm
Housing
Standard
Motor Feedback
Resolver feedback
Continuous Torque at Standstill
0.90 Nm
Motor Length Code
C
Motor Size
025
Nominal Speed
10000 min⁻¹
Shaft Seal
With shaft seal
Shaft Type
Plain shaft
Connection Direction
Side A
Connection Type
Connecting cable with coupling unit
Product Type
Motor for digital drive controllers
Shaft End
Standard (without side B shaft end)