The MAF130D-0250-FQ-M2-EH0-35-H3 motor by Bosch Rexroth Indramat belongs to the renowned MAF IndraDyn Asynchronous Motors series, offering a robust solution for high-demand industrial motion control. Featuring a rated torque of 190.0 Nm and a rated power of 49.74 kW, this AC servo motor delivers exceptional power density in a compact frame. Operating at a rated speed of 2,500 min-1, it excels in applications requiring both speed and sustained torque, making it ideal for heavy-duty positioning and automation tasks.
Equipped with a sophisticated liquid cooling system that uses a 1/4" connection thread, the MAF130D-0250-FQ-M2-EH0-35-H3 maintains optimal thermal management under peak load conditions. Its built-in multiturn absolute encoder with EnDat2.1 interface and 2048 increments ensures precise feedback for accurate speed and position control. The motor draws a rated current of 113.0 A to support its high power output, while its maximum torque capability of 450.0 Nm provides the necessary torque reserve for handling dynamic loads and accelerating machine cycles without performance loss.
Designed as a versatile AC servo motor, this unit demonstrates excellent efficiency and reliability in continuous operation. The advanced cooling and encoder technologies enhance durability by minimizing thermal stress and ensuring stable feedback signals. Compatibility with standard drive controllers and integration into existing automation systems is seamless thanks to its universal mounting and electrical interface. In industrial settings, the MAF130D-0250-FQ-M2-EH0-35-H3 delivers precise motion control and sustained performance, resulting in higher throughput, reduced downtime, and improved overall process efficiency.
Cooling System
Liquid cooling with connection thread 1/4
Encoder Type
Multiturn absolute, End Dat2.1, 2048 increments
Manufacturer
Rexroth, Indramat
Maximum Torque
450.0 Nm
Model
MAF130D-0250-FQ-M2-EH0-35-H3
Rated Current
113.0 A
Rated Power
49.74 kW
Rated Speed
2,500 min-1
Rated Torque
190.0 Nm
Type
AC servo motor