MDD071B-N-060-N2T-095GL0
The MDD071B-N-060-N2T-095GL0 is manufactured by Bosch Rexroth Indramat as part of the MDD Synchronous Motors series. Intended for use with digital drive controllers, this motor converts controlled electrical input into precise rotary motion for automated packaging stations, handling robots, and small spindle modules. Its 071 frame size and B length code provide a compact profile that fits tight mechanical envelopes while still giving the torque density needed for continuous production duty in industrial automation. This arrangement supports servo axes that require accurate positioning and repeatable motion without taking up excessive installation space.
It sustains a continuous standstill torque of 4.4 Nm, allowing the axis to hold load without mechanical drift when energized but not rotating. During operation, the rotor reaches a nominal speed of 6000 rpm, supporting rapid indexing or high surface speed machining. Accurate mechanical alignment is aided by a centering diameter of 95 mm, so the flange nests squarely in standardized mounting bores. To simplify cable routing, power and feedback exits are positioned on the left side, and connection is made through a plug-in connector that keeps installation compact and orderly. The mounting layout also helps when surrounding machine parts leave limited clearance for cable bends.
Rotor position feedback is supplied by an internal integrated multi-turn absolute encoder, delivering revolution and angle data as digital servo feedback for closed-loop control with high noise immunity. Because the unit is delivered without a blocking brake, static holding must be provided by drive torque or an external clamping element. A plain shaft fitted with a shaft seal helps prevent lubricant migration and supports a sealed interface to the driven machine. Standard balancing and housing construction keep vibration and thermal behavior within normal operating limits across the series. This steady operating behavior is useful in continuous motion tasks that involve frequent starts, stops, and direction changes.
