Product Description

The MAF180D-0100-FQ-S2-EG0-35-N1 belongs to the Bosch Rexroth Indramat IndraDyn brand series. This asynchronous motor includes a squirrel cage permanent magnet rotor especially for applications where great torque is necessary in limited spaces. One of them is the option for liquid cooling which is effective in comparison to traditional methods that involve air cooling. Heat transfer is enhanced immensely through liquid cooling, which is beneficial in ensuring the devices operate at their optimal temperatures especially on high power density motors such as the MAF series. This heat dissipation boosts the motor's operation - from 0 to 40 degrees Celsius, and high torque endurance without tripping the thermal protection.

Such liquid cooling systems mean that the motor has to operate always at high efficiency without suffering damages due to heat. This leads to higher operating efficiency and the reliability of the equipment and their service life. However, it is essential to point out that the operating temperature of the motor should be within the recommended range for optimum utilization factor of the motor, more of which indicates less efficiency, performance and shortened life expectancy. Thus, the liquid cooling function of this motor improves the electric power and power density of the motor and guarantees stable operation under high load, which perfectly fits the characteristics of industrial use of the motor.

On this motor, the frame size is 180 with the D-type length and the 100-type winding. This motor is intended for impressive torque performance; the nominal torque 525 Nm and standstill torque 500 Nm and the maximum torque 1100 Nm. The sustained current of the device is 208.2 A and this means that it can work effectively in high power applications. The motor also has an incredibly good rotor moment of inertia of only 0.61 kgxm^2, and this makes the motor quite powerful. Further, it has got a torque constant of 4.98 Nm/A showing the capability of the motor to deliver mechanical torque in relation to electrical power offered.