MAF160C-0200-FQ-S2-HH0-35-H3, Bosch Rexroth Indramat, MAF IndraDyn Asynchronous Motors’s liquid-cooled construction delivers rugged reliability in demanding industrial environments. This asynchronous induction motor features a high-precision Singleturn absolute encoder EnDat2.1 with 2048 counts and a High Speed bearing package to ensure accurate feedback under dynamic loads. The unit’s plain shaft without sealing ring simplifies coupling and maintenance, and the absence of a holding brake streamlines mechanical integration. Its liquid-cooling interface (1/4-inch FQ thread) rapidly dissipates heat, maintaining optimal performance during continuous operation.
In performance terms, the motor offers a Continuous torque at standstill: 295 Nm reserve and a Rated torque: 285 Nm at Rated speed: 2000 RPM for steady-state output of Rated power: 59.7 kW. Peak thermal headroom extends to the Derating speed: 1500 RPM threshold, while the rotor sustains rotational excursions up to its Maximum speed: 658 Nm mechanical equivalent. Drive current peaks at Rated current: 136 A, translating through a Torque constant at 20 °C: 2.3 Nm/A into predictable load response. The Number of pole pairs: 3 and a Rotor moment of inertia: 0.311 kgm^2 balance acceleration agility and damping, delivering smooth torque transfer across variable frequencies.
Engineers can integrate the MAF160C-0200-FQ-S2-HH0-35-H3 seamlessly into Rexroth IndraDyn drive systems, leveraging its compact footprint and liquid-cooling interface to minimize cabinet space. Its sturdy construction and precise encoder feedback maximize uptime and simplify diagnostics under tough conditions. Ideal for heavy-duty conveyors, mills, and multi-axis machine tools, this motor’s proven design ensures long-term reliability and consistent high-performance results.
Continuous torque at standstill
295 Nm
Derating speed
1500 RPM
Maximum speed
658 Nm
Number of pole pairs
3
Rated current
136 A
Rated power
59.7 kW
Rated speed
2000 RPM
Rated torque
285 Nm
Rotor moment of inertia
0.311 kgm^2
Torque constant at 20 degrees C
2.3 Nm/A