MDD093D-N-040-N2M-110PA0, Bosch Rexroth Indramat, MDD Synchronous Motors series offers high-dynamic performance in a compact footprint. This motor for digital drive controllers integrates advanced Indramat engineering with precision synchronization. It features a streamlined housing and an optimized rotor design to minimize vibration and acoustic noise. The product is tailored for applications demanding rapid acceleration and absolute positional accuracy.
The drive unit delivers a continuous torque at standstill of 24.0 Nm and operates up to a nominal speed of 4000 min⁻¹, ensuring robust performance under peak loads. Its motor size of 093 and centering diameter of 110 mm, combined with a motor length code of D, enable high-density installation in modular machine architectures. Equipped with an integrated multiturn absolute encoder and full digital servo feedback (DSF), it provides sub-micron positioning repeatability. The stainless steel shaft type featuring a keyway, protected by a shaft seal, and a standard housing with standard balancing and no blocking brake, streamlines maintenance while preserving alignment.
Featuring a Side-A connector connection type and defined connection direction, the motor reduces wiring complexity and speeds up commissioning. The robust shaft seal and balanced rotor extend service intervals and enhance operational reliability in demanding environments. Ideal for robotics, machine tools, and packaging machinery, it integrates seamlessly into Bosch Rexroth drive ecosystems and supports advanced motion control strategies.
Balancing
Standard
Holding Brake
Without blocking brake
Centering Diameter
110 mm
Housing
Standard
Encoder
Integrated multiturn absolute encoder
Motor feedback
Digital servo feedback (DSF)
Continuous Torque at Standstill
24.0 Nm
Motor Length Code
D
Motor Size
093
Nominal Speed
4000 min⁻¹
Shaft Seal
With shaft seal
Shaft Type
keyway
Connection Direction
Side A
Connection Type
Connector
Product Type
Motor for digital drive controllers
Shaft End
Standard (without side B shaft end)