MDD071A-N-060-N2T-095GL0
The MDD071A-N-060-N2T-095GL0 is part of the MDD Synchronous Motors series manufactured by Bosch Rexroth Indramat. This compact servo motor is intended for tightly integrated industrial axes where quick speed changes and precise positioning are required. It operates as a rotating actuator for automation machinery, coupling directly to digital drive electronics to translate command currents into mechanical motion for pick-and-place systems, packaging lines, and small gantry stages. The motor is built in the 071 frame and carries the shortest A length code, which supports installation in restricted spaces around tooling fixtures. Its compact form also helps in machine sections where guards, tooling, or transfer hardware leave little clearance around the axis.
Its mechanical interface uses a centering diameter of 95 mm, permitting accurate alignment to the machine flange. A standstill torque of 2.2 Nm indicates the force available for holding a load when the shaft is energized but not turning. The rotor reaches a nominal speed of 6000 rpm, giving the drive a wide operating range for high-throughput cycles. In rapid indexing applications, that speed capability supports shorter move times without requiring a larger motor body. Power and feedback conductors exit on the left side through a single industrial connector, which can simplify cable routing in compact equipment. Position data comes from an integrated multi-turn absolute encoder, and the standard balancing grade helps keep vibration low across the speed range.
Communication with the controller uses digital servo feedback (DSF), a serial channel that carries position, velocity, and diagnostic data between the motor and the drive. The motor is supplied without a blocking brake, so load holding must be handled by external mechanics or by drive torque when the application permits. A molded shaft seal helps block coolant or lubricant ingress during operation. The plain shaft end is supplied without a keyway, which supports press-fit or clamp-style couplings on compact axes. This arrangement is suitable for installations that use a separate holding method and prioritize a simple shaft interface.
