Applying a voltage to the stator causes a current to flow in the stator windings. The current flow induces a magnetic field which affects the rotor, setting up voltage and current flow in the ...

Shunt-wound motors have parallel rotor and stator windings. The stator may connect to the same power supply as the rotor, or it may be excited individually.

A clever repurposing of structural components in hydro-generators enables a simple solution to an important discharge ...

The two-phase ac machine contains a fixed-field system on the rotor, but magnetic flux coupled with the stator windings varies with the spinning rotor, so these windings generate ac voltages (Figure 3 ...

The resulting force acts in a direction perpendicular to both the stator magnetic field and the direction of current flow in the stator windings. This force, acting at a fixed distance from the rotor ...

Dual Stator-Winding: A design configuration involving two separate stator windings to enhance performance, allowing for improved voltage regulation and efficiency in induction generators.

Smarter motor design through AI-driven software. Motor designs from CAD to production in hours. Eliminating winding lines with PCB stators. The electric motor ...

An induction motor has a rotor (rotating part) and a stator (stationary part) within the motor housing. When an AC signal is applied to the stator winding, a rotating magnetic field is produced. This ...

Electric vehicles are obviously different from gas-powered cars, but do they have engines? We explore how EV motors and drivetrains work.

Then, by properly controlling the currents in the stator field, we produce a vector that leads the shared magnetic field of the stator and rotor, which causes the rotor, and ultimately the shaft, to ...

This is also shown in the above illustration. The output potential of the alternator increases as the number of windings increase in both the field winding and the stator. See All 10 Photos ...