MAF130C-0150-FQ-S2-AG0-05-N1, Bosch Rexroth Indramat, MAF IndraDyn Asynchronous Motors drive a new standard in industrial motion control. This induction motor integrates a high-resolution Singleturn absolute encoder EnDat2.1 and delivers a robust performance envelope suited to demanding applications. Its Plain shaft with sealing ring and Standard deep-groove ball bearings ensure smooth operation even under heavy loads. Designed without a holding brake, it prioritizes reliability and low-maintenance over complex subassemblies.
The motor achieves a Maximum speed of 7500 rpm and a Maximum torque of 329.8 Nm, translating into a Maximum power output of 46.7 kW. Thermal performance is rated for an Ambient temperature in operation of 0-40 °C with a Cycle duration of 5 min and No. of pole pairs of 3. Core dynamics are characterized by a Rotor moment of inertia of 0.101000 kg·m², while the Torque constant at 20 °C is 3.04 Nm/A. Electrical attributes include a Discharge capacity of components at 20.0 nF and Power wire cross-section of 16 mm². Acoustic emissions are held to a Sound pressure level of 70(+3) dB, and the entire assembly weighs 106 kg.
Integration into installations is simplified by dual connectivity options—either a flange socket or terminal box—while liquid cooling with a coolant supply temperature of 10-40 °C manages the Power loss to be dissipated of 2.30 kW. The motor’s standardized form factor and familiar Bosch Rexroth interface conventions enable rapid retrofit or multi-axis synchronization with existing drives. With proven IndraDyn reliability, the MAF130C-0150-FQ-S2-AG0-05-N1 excels in packaging, material handling, and conveyor applications where precision, uptime, and ease of service are paramount.
AMBIENT TEMPRATURE IN OPERATION
0-40 degree Celsius
CYCLE DURATION
5 min
DISCHARGE CAPACITY OF COMPONENTS
20.0 nF
MASS OF MOTOR
106 Kg
MAXIMUM SPEED
7500 rpm
NO. OF POLE PAIRS
3
POWER WIRE CROSS SECTION
16 mm^2
ROTOR MOMENT OF INERTIA
0.101000 kgm^2
SOUND PRESSURE LEVEL
70(+3) dB
TORQUE CONSTANT AT 20 DEGREES CELSIUS
3.04 Nm/A