abc model of induction motor

Versión 1.0.0 (36,7 KB) por Sahdev Chandra
The abc model expresses an induction motor in its original three-phase variables using phase voltage–flux equations with a rotor-angle-depen
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Actualizado 12 dic 2025

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The abc model of an induction motor describes the machine directly in the three-phase a ⁣− ⁣b ⁣− ⁣ca\!-\!b\!-\!ca−b−c variables by writing phase-domain stator and rotor voltage equations vabc=R iabc+dλabcdtv_{abc}=R\,i_{abc}+\frac{d\lambda_{abc}}{dt}vabc​=Riabc​+dtdλabc​​ (with rotor terms including speed-dependent coupling), where the flux linkages λabc\lambda_{abc}λabc​ come from a self/mutual inductance matrix that varies with rotor electrical position, capturing the rotating magnetic coupling without transforming to dq. The electromagnetic torque is computed from the energy/co-energy viewpoint, commonly using Te=12iT∂L(θ)∂θiT_e=\tfrac{1}{2}i^T\frac{\partial L(\theta)}{\partial \theta}iTe​=21​iT∂θ∂L(θ)​i. This model is especially good for transients and unbalanced or fault conditions, but it is computationally heavier than dq models because inductances depend on rotor angle.

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Sahdev Chandra (2025). abc model of induction motor (https://la.mathworks.com/matlabcentral/fileexchange/182816-abc-model-of-induction-motor), MATLAB Central File Exchange. Recuperado .

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1.0.0