MDD065A-N-060-N2L-095PR0
The MDD065A-N-060-N2L-095PR0 is a compact synchronous servo motor from Bosch Rexroth Indramat in the MDD Synchronous Motors series. It is designed for use with digital drive controllers and converts commanded electrical input into accurate rotary motion for high-speed positioning tasks in automated machinery. The unit uses an electronically commutated permanent-magnet design, which supports stable speed control, direct feedback integration, and low routine maintenance. Its 065 frame size and A-length housing help it fit machine sections where installation depth is limited. This motor type is well suited to packaging, transfer, and handling equipment that depends on repeatable acceleration and accurate stopping.
Its centering pilot measures 95 mm, which helps align the motor accurately on the mounting surface. The rotor can sustain 0.8 Nm of continuous standstill torque, so the axis can hold position under a static load without thermal overload. The motor reaches a nominal speed of 6000 rpm, supporting fast cycle rates in pick-and-place units and other high-response applications. Power and feedback connections are routed on the right side of the housing, and a connector interface keeps cable attachment straightforward while preserving a compact exterior. Standard dynamic balancing helps reduce residual vibration during rapid motion, and that side-mounted connection layout can be useful where surrounding machine parts leave less clearance on the opposite side.
For applications that rely on external holding methods, the motor is supplied without a blocking brake, so the shaft is not mechanically held when power is removed. Position data is returned through Digital servo feedback (DSF), allowing the connected controller to correct speed and position error during each control cycle. The output shaft uses a keyway for positive torque transmission to couplings or pulleys. It is also built with a shaft seal to help limit the entry of dust or coolant near the bearing area. This arrangement supports closed-loop motion tasks that need consistent response during starts, stops, and direction changes.
