MDD065D-N-060-N2M-095GL0
The MDD065D-N-060-N2M-095GL0 is a synchronous servo motor produced by Bosch Rexroth Indramat for the MDD Synchronous Motors series. Intended for digital drive controllers, it provides precise torque and speed control in automated material handling, packaging, and printing lines. The compact frame fits equipment that demands high rotor speed, and its electrical interface mates directly with Rexroth drive modules to create a coordinated motion axis. Its synchronous design allows the control system to follow commanded motion closely during start-stop cycles and steady-state operation.
At standstill, it provides a continuous torque of 2.7 Nm, permitting the axis to support loads without thermal overload during continuous operation. Under rated excitation, the rotor reaches 6000 rpm, a base speed suited to fast indexing tables and rapid cycle changes. A centering diameter of 95 mm aligns the flange to gearboxes, helping maintain concentric mounting between the motor and the driven load. Cabling exits on the left side through a sealed connector that carries power and signals. The sealed connector keeps the cable interface compact and helps simplify routing in crowded machine spaces. The unit includes an integrated multi-turn absolute encoder, so position information remains available after power loss.
The stator housing uses the series’ standard ribbed profile for surface cooling, and the shaft uses a shaft seal to help block fluid ingress along the shaft bore. Because the unit is supplied without a blocking brake, position holding during shutdown must rely on external means or drive torque. Control hardware receives position and velocity through digital servo feedback, supporting high-resolution regulation over the full speed range. The motor is built in size code 065 with a plain, single-ended shaft, so no secondary journal projects from the rear face. The D-length housing uses a longer active stack within this frame. This layout supports direct coupling to belt pulleys or rigid hubs where installation space is limited.
