MDD093C-F-040-N5L-110GA0, Bosch Rexroth Indramat, MDD Synchronous Motors delivers precision actuation for modern automation. The design integrates a robust plain shaft output on a 110 mm centering diameter with a streamlined connector interface for rapid installation. As a Motor Size 093 with Motor Length Code C, it harmonizes compact form and high performance. Standard Balancing ensures vibration-free operation across its speed range.
The MDD093C-F-040-N5L-110GA0 achieves a Nominal Speed of 4000 min⁻¹ paired with a Continuous Torque At Standstill of 19.5 Nm, extending to 28.0 Nm under short-term loads without a blocking brake. A Torque Constant At 20 C of 0.61 Nm/A and Windings Resistance At 20 C of 0.25 Ω optimize current-to-torque conversion while limiting thermal buildup. Rapid response is driven by a Windings Inductance of 2.7 mH and a Rotor Moment Of Inertia of 42 × 10⁻⁴ kgm², enabling swift acceleration and deceleration. Theoretical maximum torque is 60.6 Nm, and it handles Continuous Current At Standstill of 45.3 A (peak 65.0 A), all housed in a design for natural convection and surface cooling.
Native Digital servo feedback (DSF) streamlines integration into drive controllers, delivering high-resolution position and velocity signals. The brake-free construction lowers maintenance demands, while the convection-optimized housing boosts reliability in harsh industrial environments. Tailored for robotics, pick-and-place stations, and dynamic motion systems, this motor enhances throughput and uptime in automated production lines.
Balancing
Standard
Holding Brake
Without blocking brake
Centering Diameter
110 mm
Motor Feedback
Digital servo feedback (DSF)
Motor Length Code
C
Motor Size
093
Nominal Speed
4000 min⁻¹
Shaft Type
Plain shaft
Connection Type
Connector
Product Type
Motor for digital drive controllers
Torque Constant At 20 c
0.61 Nm/A
Windings Resistance At 20 c
0.25 Ohm
Continuous Torque At Standstill
19.5 (28.0) Nm
Theoretical Maximum Torque
60.6 Nm
Windings Inductance
2.7 mH
Housing Design
Suitable for natural convection and surface cooling
Continuous Current At Standstill
45.3 (65.0) A
Rotor Moment Of Inertia
42 x 10-4 kgm^2