Product Description

Rexroth Bosch's MAF130C-0250-FQ-S2-AP0-05-N1 converts electrical energy into rotation through the harmonic interaction of its numerous components. The fundamental working principle of this induction motor is stated in a way that makes each component's operation clear, although it might seem complicated. The electromagnetic transfer of energy is the fundamental process of every induction motor's operation. The stator, which is the motor's static component made of coils surrounding a steel core, is where this process starts. The motor produces a revolving magnetic field when alternating current is run through these coils.

For easier rotation and maintaining temperature, the MAF130C-0250-FQ-S2-AP0-05-N1 features bearing and temperature sensors. Every part of this induction motor is essential to its functioning, from the rotor's response to the magnetic field created by the stator's windings to the motor itself. A revolving magnetic field would not exist without the stator, and mechanical motion could not be produced without the interaction of the rotor. Due to the high vaporization heat, water absorbs a large quantity of heat during the evaporation process. This feature is used in motor cooling systems, where heat is removed from the system by evaporating water. Its high specific heat makes it possible for it to absorb significant thermal energy with only a small temperature increase.

Shaft grounding prevents energy from damaging sensitive motor components. By rerouting electrical current away from sensitive motor parts with low resistance, like motor bearings, this provides a safer route to the ground. The interrupt disc of the encoder (single-turn) includes concentric windows at various radii that are read concurrently and whose relative sizes are established by the binary code. The encoder disk outputs a binary code for each angular position.