MDD071A-N-060-N2T-095GL1
The MDD071A-N-060-N2T-095GL1 is a synchronous servo motor engineered by Bosch Rexroth Indramat and placed within the MDD Synchronous Motors series. Designed for digital drive controllers, it converts commanded current into regulated torque and speed for automated assembly lines, pick-and-place gantries, and other high-cycle machinery. An integrated multi-turn absolute encoder supplies the drive with exact rotor position data, which supports coordinated multi-axis motion and accurate position tracking during operation. Because the encoder tracks several revolutions, the motor preserves absolute position after power is restored, so the axis can return to operation with position awareness.
The mounting pilot has a centering diameter of 95 mm, allowing the flange to seat precisely against standard machine faces. Power and feedback conductors exit on the left side, and a sealed connector provides a compact electrical interface for the motor leads. At standstill, the unit can sustain 2.2 Nm of continuous torque, while the winding supports a nominal speed of 6000 rpm for rapid indexing and high-speed motion. The stator frame size is 071, and the compact A-length housing helps the motor fit into space-limited installations. Standard dynamic balancing reduces residual vibration, and the smooth-wall housing supports airflow around the motor surface. An internal blocking brake is included for load holding when the axis is stopped.
The brake provides 3.0 Nm of static holding torque to secure vertical axes during stopping conditions. Rotor position is transmitted through digital servo feedback, which gives the connected drive the information needed for accurate speed regulation and current control. The motor uses a plain shaft with a factory-installed shaft seal, allowing connection to friction-clamped couplings without a keyway while helping limit oil ingress. The shaft is present only on side A, and side B remains closed to keep the overall motor length shorter. Brake release is handled by the matched drive once motor current is available.
