The PhaseCoordinate Model – The Complex Variable Model – Steady State by the Complex Variable Model – Equivalent Circuits for Drives – Electrical Transients with Flux Linkages as Variables – Including Magnetic Saturation in the SpacePhasor Model – Saturation and Core Loss Inclusion into the StateSpace Model – ReducedOrder Models – Neglecting Stator Transients – Considering Leakage Saturation – Large Machines: Torsional Torque – The Sudden Short Circuit at Terminals – Most Severe Transients (So Far) – The abc–dq Model for PWM InverterFed IMs – Fault Conditions – FirstOrder Models of IMs for SteadyState Stability in Power Systems – Multimachine Transients – Subsynchronous Resonance (SSR) – The M/Nr Actual Winding Modelling for Transients – Multiphase Induction Machines Models for Transients – The SixPhase Machine – The FivePhase Machine – Doubly Fed Induction Machine Models for Transients – CageRotor Synchronized Reluctance Motors – Cage Rotor PM Synchronous Motors – Summary – References – Chapter SinglePhase IM Transients – Introduction – The dq Model Performance in Stator Coordinates – Starting Transients – The MultipleReference Model for Transients – Including the Space Harmonics – Summary – References – Chapter SuperHighFrequency Models and Behaviour of IMs – Introduction – Three HighFrequency Operation Impedances – The Differential Impedance – Neutral and Common Mode Impedance Models – The SuperHighFrequency Distributed Equivalent Circuit .