MDD071A-N-030-N2M-095GB1
The MDD071A-N-030-N2M-095GB1 is an AC synchronous servo motor built for the MDD Synchronous Motors series. It is used with digital drive controllers in applications that require accurate speed and position control in industrial automation. By converting electrical power from the controller into precise mechanical rotation, the motor is suited for pick-and-place stations, packaging machinery, and other equipment with repeated motion cycles. Its compact construction supports installation where dependable servo response and consistent axis behavior are required.
The motor delivers 2.2 Nm of continuous torque at standstill, which allows stable holding force while the axis remains energized and stationary. During operation, it reaches a nominal speed of 3000 rpm, making it suitable for common servo applications that need a broad operating range. An integrated blocking brake provides 3.0 Nm of braking torque to hold vertical or suspended loads when power is removed. The mounting flange uses a centering diameter of 95 mm for accurate alignment with connected machine components. Rotor position is transmitted through digital servo feedback (DSF), allowing the controller to receive real-time feedback for closed-loop regulation. This feedback arrangement supports stable velocity control and repeatable positioning during cyclic machine movement.
Power and feedback connections are oriented toward side B, which helps keep cable routing consistent at the rear of the motor. Mechanical output is transmitted through a plain shaft with a shaft seal, which supports coupling to external drive elements while helping protect the bearing area. Position retention after power loss is supported by an integrated multi-turn absolute encoder, so the axis can retain position information across power cycles. Vibration behavior is managed with standard balancing, which is suitable for general industrial motion duty. The motor uses frame size 071 with a short A-length housing, giving it a compact form without reducing its suitability for continuous servo service.
