The Bosch Rexroth Indramat MST530P-0012-FH-N0KR-NNNN is part of the MST Synchronous Torque Motors series, delivering exceptional performance for precision torque control. Designed for demanding industrial applications, this motor boasts a standstill torque of 3,300 Nm and a rated torque of 2,940 Nm, ensuring robust startup performance and consistent operation under load. With a rated speed of 110 RPM, it excels in heavy machinery and automation systems where steady, accurate torque is essential.
Featuring an advanced liquid cooling system, the MST530P-0012-FH-N0KR-NNNN incorporates a closed aluminum cooling jacket for continuous heat dissipation. The motor requires a minimum coolant flow rate of 12.5 L/min and maintains optimal temperature with a maximum temperature rise of 10 K. The operating temperature range of 10°C to 40°C and a pressure drop of 0.4 bar at minimum flow ensure smooth thermal management. The motor’s maximum torque peaks at 6,580 Nm, supported by a power dissipation rate of 8.70 kW, for reliable performance under fluctuating loads.
For streamlined installation, the motor includes a terminal box with right-side cable output, facilitating straightforward electrical connections. It delivers a rated power of 36.90 kW at a rated current of 83.8 A, making it ideal for industrial automation and heavy-load applications. Key electrical characteristics include a winding resistance of 0.485 Ω and inductance of 5.76 mH, contributing to efficient energy conversion and consistent dynamic response. With a maximum allowable inlet pressure of 6.0 bar, this motor offers enhanced operational safety and longevity, providing reliable high-torque performance in rigorous industrial environments.
Coolant Flow Rate
12.5 L/min
Cooling Jacket Type
Closed aluminum
Inductance
5.76 mH
Max Temperature Rise
10 K
Maximum Torque
6,580 Nm
Operating Temperature Range
10°C to 40°C
Power Dissipation
8.70 kW
Rated Current
83.8 A
Rated Power
36.90 kW
Rated Speed
110 RPM
Rated Torque
2,940 Nm
Standstill Torque
3,300 Nm
Winding Resistance
0.485 Ω