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SQUIRREL-CAGE INDUCTION MOTOR

Stator view

Three-phase sinusoidal balanced excitation in 3 stator phases produces a sinusoidally distributed field rotating at the excitation frequency ω_s. This field can be viewed as being created by a single equivalent sinusoidal winding which is excited with dc current and which is also rotating. The flux density distribution is represented here by the state vector B_m (or, equivalently, by the magnetizing current I_m). It is portrayed in the air gap with shaded colors for which the more intense the color the higher the field intensity and where blues point to the rotor and reds to the stator. This distribution rotates at the stator frequency ω_s as seen from the stator stationary frame and at the slip frequency ω_slip=ω_s- ω_m with respect to the rotor turning at ω_m, thereby generating sinusoidal voltages of slip frequency in the rotor bars and corresponding sinusoidal slip-frequency currents with a delay due to the presence of rotor leakage. This rotor current distribution rotates at ω_slip with respect to the rotor and at ω_s with respect to the stationary stator observer. It can thus be represented by the rotor space vector I_r. Since B_m  (or I_m) cannot change, the stator current I_s must include a component I_R = - I_r .

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