Product Description

This motor is one of the MAF series developed by Rexroth, a Bosch Rexroth Indramat, and specifically branded as the MAF180D-0100-FQ-M2-KP2-35-N1. This motor is specially intended for use in industrial facilities where high degree of usage is expected. An important feature of this motor is the liquid cooling, higher torque, precision and the robustness of it.

The other figures combine to denote that this motor is a standard size 180, and its length as size D. The numeric sequence 0100 in the winding code points towards the fact that this is a 3-phase AC servo motor used where performance is high. A special sign indicating this motor can be described as a forced liquid cooling system abbreviated as FQ. It has an external liquid coolant that helps conduct heat produced during operation, away from the system. This liquid cooling process not only optimizes the working of the motor but also cuts down on a great deal of mechanical stress regular cooling methods put on the engine and this by extension cuts down on maintenance requirements. The encoder labeled by M2 in the part number enables their users some features like speed and programmed position. This encoder has the capability of making 2048 increments for one revolution, which makes the operation of the motor more accurate. This specifically is the Multi-turn absolute value encoder that enables the motor position to be closely monitored, making the motor very reliable for the different uses.

The letter P on the motor indicates that the motor has a keyway shaft with a sealing ring to boost its protection. It is important to point at a feature that this motor has an electrically clamped holding brake; thus, it has the means to effectively and instantaneously halt its rotation in case of power supply interruption. Mounting is easy, with the motor geared with size 35 flange for easy installation. The motor is built with a standard bearing with the letter N and has a strong ability to last longer. Furthermore, the motor is equipped with the capability to manage vibration that falls in the range of A, this allows it to maintain optimum functionality in conditions that are characterized by strong mechanical force.