Several optimization criteria exist for pulsewidth modulation (PWM) inverter control as applied to ac motor drives. Drive dynamics, i.e., torque and speed ripples, are analyzed and optimized. As a representative example, the PWM inverter control is assumed to have three and five degrees of freedom. These degrees of freedom are realized by so-called switching angles which determine the inverter output voltage waveshape. This voltage is applied to an induction motor. Analysis is executed for a steady-state approximation (using Fourier analysis) as well as for the rigorous fifth-order dynamic equations. The results are compared. The optimal solution for the switching angles as a function of the voltage fundamental is shown. The location of the optima is compared with the efficiency optimal control presented in an earlier paper. A means is provided to compare results for different optimization criteria in order to reach an overall optimum as the best compromise between the results gained from the different optimization methods.