MAF130B-0200-FQ-M7-LF0-05-A1, Bosch Rexroth Indramat, MAF IndraDyn Asynchronous Motors is a high-performance asynchronous motor engineered for demanding industrial environments. This unit features an integrated multiturn absolute encoder for precise position feedback and a fixed A-side bearing fitted with a labyrinth seal to protect against contaminants. A smooth shaft design simplifies coupling to downstream equipment and requires a separate terminal box for power connections. Compatible with Rexroth IndraDrive controllers, it delivers intelligent drive solutions with flexible configuration and monitoring options.
In its standard configuration, the motor delivers a Rated Speed of 2000 RPM and operates efficiently at a Key Speed of 1500 RPM for synchronous applications. It produces a continuous Rated Torque of 100 Nm while drawing a Rated Current of 52.7 A, driven by a Number of Pole Pairs of 3. The motor’s thermal management relies on Liquid Cooling to maintain optimal temperatures within a coolant supply range of 10–40 °C, supported by a Thermal Time Constant of 3.5 min for rapid heat dissipation. Noise-sensitive applications benefit from a low Sound Pressure Level of 70(+3) dB[A], and the Rotor Moment of Inertia of 0.0790 kg meter square ensures precise acceleration and deceleration profiles.
Designed for seamless integration, the MAF130B-0200-FQ-M7-LF0-05-A1 fits within standard installation footprints and altitudes up to 1000 m above sea level without derating. Its robust construction and sealed bearings deliver maintenance-free operation over extended service intervals, reducing downtime and lifecycle costs. Ideal for machine tools, printing, packaging, and metal-forming lines, this motor delivers reliable performance and can be quickly commissioned with Rexroth’s IndraDrive ecosystem.
Key Speed
1500 RPM
Liquid Cooling
Yes
Number of Pole Pairs
3
Rated Current
52.7 A
Rated Power
20.90 kW
Rated Speed
2000 RPM
Rated Torque
100 Nm
Rotor Moment of Inertia
0.0790 kg meter square
Sound Pressure Level
70(+3) dB[A]
Thermal Time Constant
3.5 min