MDD065A-N-060-N2M-095GL0
The MDD065A-N-060-N2M-095GL0 is a synchronous motor manufactured by Bosch Rexroth Indramat within the MDD Synchronous Motors series. It is intended for use with digital drive controllers and converts commanded electrical energy into rotary motion for positioning, metering, and transport tasks in industrial automation lines. When paired with a compatible controller, the motor provides precise torque and speed regulation on servo axes that need compact dimensions and quick response during repeated starts, stops, and direction changes. This arrangement supports accurate synchronization between commanded motion and actual shaft position in packaging equipment, indexing stations, feed systems, and other machines that rely on repeatable motion profiles.
The motor delivers a continuous standstill torque of 0.8 Nm, which indicates the load it can hold at zero speed without exceeding thermal limits. During motion, a nominal mechanical speed of 6000 rpm supports rapid cycle execution when the axis uses suitable gearing. A centering pilot of 95 mm helps align the flange with adjoining machine frames. Power and feedback wiring exit through a connector on the left side of the housing, which supports orderly cable routing along a common path. The unit uses the 065 frame size with the short A length code, standard dynamic balancing, and a standard housing style for general cabinet environments. Its short housing helps conserve installation space where multiple axes are mounted close together.
The motor uses digital servo feedback (DSF) to transmit high-resolution position data from its integrated multiturn absolute encoder to the drive. The encoder provides position information immediately after power-up, so the controller can track shaft angle across multiple revolutions. The output uses a plain shaft and includes a shaft seal, which helps reduce lubricant migration and particle ingress at the coupling point. Because the motor is supplied without a holding brake, static locking must be provided by an external device or by drive torque when the axis is stopped. The single-ended shaft arrangement supports direct coupling to pulleys or precision couplings without secondary machining.
